ࡱ> {|}~{ bjbjzz )e& ++p-p-p-4---h .14-K3 :";;N;KfwODP$  9p-QI0KQQ++;N;/`/`/`Q+";Lp-N;/`Q/`/`t,r\N;`MU$^0K9'WZ9\\.9p-_QsQ/`Q QX_Q_Q_Q[_Q_Q_QKQQQQ9_Q_Q_Q_Q_Q_Q_Q_Q_Q *:  February 2013 Teacher's Guide for Fighting Cancer with Lasers Table of Contents  TOC \o "1-3" \h \z \u  HYPERLINK \l "_Toc348351377" About the Guide  PAGEREF _Toc348351377 \h 2  HYPERLINK \l "_Toc348351378" Student Questions  PAGEREF _Toc348351378 \h 3  HYPERLINK \l "_Toc348351379" Answers to Student Questions  PAGEREF _Toc348351379 \h 4  HYPERLINK \l "_Toc348351380" Anticipation Guide  PAGEREF _Toc348351380 \h 5  HYPERLINK \l "_Toc348351381" Reading Strategies  PAGEREF _Toc348351381 \h 6  HYPERLINK \l "_Toc348351382" Background Information  PAGEREF _Toc348351382 \h 8  HYPERLINK \l "_Toc348351383" Connections to Chemistry Concepts  PAGEREF _Toc348351383 \h 25  HYPERLINK \l "_Toc348351384" Possible Student Misconceptions  PAGEREF _Toc348351384 \h 25  HYPERLINK \l "_Toc348351385" Anticipating Student Questions  PAGEREF _Toc348351385 \h 26  HYPERLINK \l "_Toc348351386" In-Class Activities  PAGEREF _Toc348351386 \h 28  HYPERLINK \l "_Toc348351387" Out-of-class Activities and Projects  PAGEREF _Toc348351387 \h 30  HYPERLINK \l "_Toc348351388" References  PAGEREF _Toc348351388 \h 30  HYPERLINK \l "_Toc348351389" Web sites for Additional Information  PAGEREF _Toc348351389 \h 32  About the Guide Teachers Guide editors William Bleam, Donald McKinney, Ronald Tempest, and Erica K. Jacobsen created the Teachers Guide article material. E-mail:  HYPERLINK "mailto:bbleam@verizon.net" bbleam@verizon.net Susan Cooper prepared the anticipation and reading guides. Patrice Pages, ChemMatters editor, coordinated production and prepared the Microsoft Word and PDF versions of the Teachers Guide. E-mail:  HYPERLINK "mailto:chemmatters@acs.org" chemmatters@acs.org Articles from past issues of ChemMatters can be accessed from a CD that is available from the American Chemical Society for $30. The CD contains all ChemMatters issues from February 1983 to April 2008. The ChemMatters CD includes an Index that covers all issues from February 1983 to April 2008. The ChemMatters CD can be purchased by calling 1-800-227-5558. Purchase information can be found online at  HYPERLINK "http://chemistry.org/chemmatters/cd3.html" www.acs.org/chemmatters Student Questions What medical tool did doctors use to determine the problem causing Chriss pain? What is the name of the type of tumor found in his thigh? Was the tumor cancerous? What two medical tools do doctors use to treat the tumor? What role does the needle play in destroying the tumor? Was the operation difficult or complicated? What is the meaning of the acronym LASER? Name three properties of laser light. Name the two processes involved in generating laser light. Explain each. Name two advantages and two disadvantages of using lasers for treating cancers. Answers to Student Questions What medical tool did doctors use to determine the problem causing Chriss pain? The medical tool used by doctors to determine the origin of Chriss pain was the computed tomography scan, or CT scan. What is the name of the type of tumor found in his thigh? The tumor in Chriss thigh was an osteoid osteoma. Was the tumor cancerous? Luckily, Chriss tumor was not cancerous; it was benign. What two medical tools do doctors use to treat the tumor? Doctors typically use radio waves of lasers to treat tumors of this type. What role does the needle play in destroying the tumor? Doctors insert the needle into the center of the tumor; then they insert an optic fiber into the needle. The fiber is used to direct the intense light/heat of the laser to the center of the tumor. Was the operation difficult or complicated? Although Chris needed general anesthesia, the operation itself only took an hour, and Chris ... went home the same day and, within a short period of time, he was able to walk and resume his daily activities. In short, the operation seemed pretty easy (although its still surgery and its still scary). What is the meaning of the acronym LASER? The acronym LASER means Light Amplification by Stimulated Emission of Radiation. Name three properties of laser light. Laser light: a. is focused in a narrow beam, b. has one specific wavelength, c. is very intense. Name the two processes involved in generating laser light. Explain each. The two processes in generating laser light are stimulated emission and light amplification. Stimulated emission involves incoming light causing atoms within the laser to emit light on their own. These atoms are bombarded with flashes of light or electrical discharges. This causes electrons within the atoms to absorb energy and jump to higher energy states (excited states). When these electrons from excited states return to their original ground states, they release photons of light. These photons then stimulate other electrons in excited states to jump back down to their ground state, thereby emitting more photons, all of which travel in the same direction. Light amplification occurs when the photons of light travel back and forth within the laser medium reflecting off the two mirrors. As they bounce back and forth between the mirrors, they stimulate more and more excited electrons to return to their ground states, thus emitting even more photons. Eventually the light wave leaves the laser medium through the partially-coated mirror, creating the laser beam. Name two advantages and two disadvantages of using lasers for treating cancers. Two advantages of using laser for treating tumors are: The laser can be used to repair small parts or surfaces of the body, much like a scalpel, The heat from laser light actually helps to sterilize wounds. The disadvantages of using laser light for tumor treatment are: their high price, the bulkiness of the equipment to generate the laser beams, the need for training and precautions for medical staff using the laser. Anticipation Guide Anticipation guides help engage students by activating prior knowledge and stimulating student interest before reading. If class time permits, discuss students responses to each statement before reading each article. As they read, students should look for evidence supporting or refuting their initial responses. Directions: Before reading, in the first column, write A or D indicating your agreement or disagreement with each statement. As you read, compare your opinions with information from the article. In the space under each statement, cite information from the article that supports or refutes your original ideas. MeTextStatementTumors smaller than a marble can cause severe, sharp pain.Laser surgery involves aiming a laser beam at the tumor to destroy it.The term LASER is an acronym.Light from a laser has many wavelengths.Lasers have mirrors inside.Electrons emit photons of light when they become excited.Lasers are already used to treat harmful cancers such as liver cancer.Laser surgery has less risk of infection and less pain. Reading Strategies These matrices and organizers are provided to help students locate and analyze information from the articles. Student understanding will be enhanced when they explore and evaluate the information themselves, with input from the teacher if students are struggling. Encourage students to use their own words and avoid copying entire sentences from the articles. The use of bullets helps them do this. If you use these reading strategies to evaluate student performance, you may want to develop a grading rubric such as the one below. ScoreDescriptionEvidence4ExcellentComplete; details provided; demonstrates deep understanding.3GoodComplete; few details provided; demonstrates some understanding.2FairIncomplete; few details provided; some misconceptions evident.1PoorVery incomplete; no details provided; many misconceptions evident.0Not acceptableSo incomplete that no judgment can be made about student understanding Teaching Strategies: Links to Common Core State Standards: There are several opportunities to compare alternatives in this issue of ChemMatters. For example, you might ask students to take sides and find support for one of the following: Using brand-name vs. generic drugs Driving electric cars vs. cars with internal combustion engines To help students engage with the text, ask students what questions they still have about the articles. Vocabulary that may be new to students: VOCs Internal combustion engine Important chemistry concepts that will be reinforced in this issue: Reaction rate Oxidation and reduction Directions: As you read the article, describe how tumors are treated with lasers. DetectionLocating tumor during surgeryDirecting laser into tumorLaser energy productionFuture uses of lasers in removing tumorsAdvantages of laser surgeryDisadvantages of laser surgery Background Information (teacher information) More on the history of lasers The concept of the laser was first brought forth by Albert Einstein in 1917. His work seemed to always focus on light (no pun intended), and the idea of the laser was just a small piece of his studies. He theorized about stimulated emission of radiation, saying that if there were a large number of energized atoms each ready to emit a photon at a random time in a random direction, and if a stray photon happened to pass by, the energized atoms would be stimulated by its presence to emit their photons early. These new photons, he said, would have the same direction and same frequency as the original trigger photon. Repeating this process with more and more stray photons with each pass would result in laser light. Of course, Einstein never actually built a laser; he was, after all, a theorist, not an engineer. Building a laser would have to wait until 1960, when Theodore Maiman and co-researchers actually built the first working laser. But prior to the first laser, a slightly different version of the same concept had been designed. In 1954 Charles Townes (Columbia University) and James Gordon (Bell Labs) in the U.S. and Nikolai Basov and Alexander Prokhorov of the Lebedev Institute of Physics, Moscow, developed the first maser, microwave amplification by stimulated emission of radiation. This instrument showed the feasibility of building a laser and it set many scientists; e.g., Arthur Schawlow and Charles Townes, to speculate about using visible light to achieve the same goal. Their research led them to construct an optical cavity that contained two highly reflecting mirrors with the amplifying medium between them. On the basis of this work they thereafter applied for the first patent for an optical maser. Gordon Gould, a graduate student working with Townes worked to build a visible light instrument similar to the optical maser, but he called it a laser. He was the first person to coin the term. He began work on his laser in 1958, but he failed to file a patent until 1959. His patent was denied in favor of Townes and Schawlows patent. In 1987, Gould was finally granted patent rights for a gas-discharge laser, following a protracted 30-year legal battle. Theodore Maiman of the Hughes Research Laboratories actually built the first laser, using a synthetic ruby crystal as the lasing medium. The ruby was silvered on both ends, one end completely and the other one partially. It was stimulated using flashes of intense light from a xenon flashtube. The first demonstration of laser light occurred on May 16, 1960. This laser is referred to as a pulsed laser, meaning that the laser light emanated in a series of pulses. The first continuous laser using helium and neon gases was developed at Bell Labs by Ali Javan, William Bennett and Donald Herriot. It was demonstrated on December 12, 1960, just months after Maimans laser debuted. The He-Ne laser was the first to be stimulated by an electric current rather than a light pulse. He-Ne lasers were the first lasers to be mass-produced and they found widespread commercial use, from store UPC barcode scanners to video disc players and medical technologies and laser printers. Today they have largely been replaced by diode-pumped solid state lasers and laser diodes. In 1961, the first neodymium glass (Nd-glass) laser was demonstrated. This type of laser, much refined, is what is used in the National Ignition Facilitys 102-laser device (see More on national security, below). Nineteen sixty-two saw many advancements on the laser front. In that year the first gallium-arsenide (Ga-As) laser was developed. This was a semi-conductor device that converted electrical energy into IR light; it needed to be cooled to operate. Also developed in 1962 was the gallium arsenide phosphide (GaAsP) visible red laser diode. It was the precursor to todays red LED used in CD and DVD players. The first yttrium aluminum garnet (YAG) laser was also developed in 1962. Carbon dioxide lasers were developed in the early 1960s (Kumar Patel at Bell Labs in 1964 made the first). It is still one of the most useful of all types, due in no small part to the persistent efforts by Patel to find new uses for his device. In industry, the CO2 laser is used for welding, drilling and cutting, even at the microscopic level. In medicine it is used in laser surgery, as well as noninvasive procedures. In science, it is used to analyze the composition of the upper atmosphere, even detecting pollutants down to parts per trillion (ppt). In military applications, the CO2 laser was used in Ronald Reagans Star Wars laser defense system. Nineteen sixty-six saw a breakthrough involving fiber optics. It was discovered that pure glass fibers could be used to transmit light over 100 km. Telecommunications via fiber optics was born. ( HYPERLINK "http://www.photonics.com/Article.aspx?AID=42279" http://www.photonics.com/Article.aspx?AID=42279) In 1970 another new type of laser was developed, called an excimer lasershort for excited dimer laser. The first excimer laser (1970) produced a xenon dimer (Xe2), excited by an electron beam. It underwent stimulated emission at the 172 nm wavelength. These excimers can only exist in an energized state, and they generally produce laser light in the ultraviolet range of the electromagnetic spectrum. Within five years an improved version, an exciplex, had been developed. These lasers used a noble gasargon, krypton or xenonand a reactive halogen gas (fluorine or chlorine) as the laser medium. At high pressure and electric stimulation, the two gases form a pseudo-molecule, an exciplex, an excited complex. Like excimers, exciplexes only exist in the excited state and they also produce light in the UV range. Today, most excimer lasers are really exciplex lasers, since they use two different gases, while a dimer is a diatomic molecule of only one gas. The term exciplex, however, has not caught on. Over the years, laser discoveries have been mixed with new uses for those developed lasers. The new laser discoveries typically became more complex, but they also became more user-friendly as lasers were miniaturized and became part of everyday life. Uses of lasers are discussed later in this Teachers Guide. More on laser science and chemistry A series of short (12 page) articles in past ChemMatters issues called Question from the Classroom: dealt with questions posed by students themselves and answered by Bob Becker. One such article appearing in the April 2003 issue was How do lasers work and what is so special about laser light? Heres Bobs response: The answers can be found in one very excited group of electrons! You may recall that an atoms electrons can only exist in very specific, discrete energy levels. When they absorb energy, they can become excited from their ground state up to a higher level. Being unstable there, however, they immediately drop back to a lower level, and when they do, they emit a photon of light. The energy of this photon depends on the specific electron drop that occurred. For example, in a hydrogen atom, an electron dropping from level 3 to level 2 emits light with a wavelength of precisely 656 nma red band in the visible spectrum. In a similar way, fluorescent lights make indirect use of gaseous mercury atoms whose electrons are excited by electrical current. Because the ground state is more stable, only a small fraction of the mercury atoms are in the excited state at any point in time. When an emitted photon strikes another mercury atom, it will most likely be in the ground state, so it will probably absorb the photon, only to reemit it immediately afterward. The UV light emitted as the electrons fall back to their ground states is invisiblenot exactly what you want in a light bulb. Then how do fluorescent bulbs light up your classroom? Visible light results when ultraviolet light emitted by the mercury strikes the phosphor coating on the inside of the bulb. Laser devices also involve excited electrons, but there is an important difference. The sample inside the device is being constantly pumped with a steady stream of sufficiently high energy. Under this condition, a population Inversion can occur. This means that there are more electrons in the excited state than there are in the ground state at any point in time. In this high-energy environment, a remarkable chain of events can occur:   Should this pair of photons happen to approach yet another excited atom, a third photon will join their ranks, and so on. These synchronized photons are known as coherent light, for they do not tend to spread apart the way regular light does as it travels along. Thus, the laser device simply consists of some medium to be excited (which can vary from a gas mixture to a dye molecule to a ruby crystal) and an energy pump pumping fast enough to cause a population inversion in that medium. But there is one more important feature: a pair of mirrors facing one another on either end of the excited medium. It is important to remember that when the sample of atoms is excited and starts emitting light, the photons are emitted randomly in all different directions. In the laser device, most of these photons are lost as they get absorbed into the sidewalls. A small fraction, however, will just happen to emit their photons precisely perpendicular to one of the two mirrors. This beam of photons will effectively have an infinite path through the medium. Try positioning yourself between two perfectly parallel mirrors, and youll witness this infinite pathway. And as the photons bounce back and forth between the two mirrors, they stimulate more and more excited electrons to drop and recruit more and more coherent photons, amplifying the beam with each passage. This light amplification by the stimulated emission of radiation goes by the familiar acronym LASER. But this laser beam would be trapped inside the tube, bouncing back and forth forever, if it were not for the fact that one of the two mirrors is only partially reflective, allowing some of the coherent light to escape as a narrow beam. Because this beam does not tend to spread apart, its energy can be focused in ways that regular light cannot. This makes lasers much more powerfuland dangerousthan ordinary light. From guided missiles to supermarket bar-code scanners, from CD players to fiber-optic phone connections, from tattoo removal to delicate eye surgery, there is no question that our world would be quite different if it were not for lasers. But without question, laser pointers should never be treated as toys. Its very likely your school district has banned them for non-classroom use. (Becker, R. Question from the Classroom. ChemMatters 2003, 21 (2), pp 23,  HYPERLINK "http://portal.acs.org/portal/PublicWebSite/education/resources/highschool/chemmatters/archive/CNBP_028409" http://portal.acs.org/portal/PublicWebSite/education/resources/highschool/chemmatters/archive/CNBP_028409) And here is an excerpt from the Teachers Guide that accompanied the issue containing the Becker article, above. The article nicely explains the nature of laser light and how it is created. A concise answer to the question about how laser light differs from ordinary light has three points: (1) Laser light is monochromatic. It consists of only one specific wavelength, although this wavelength will be different for different types of lasers. It is possible to have regular non-laser light that is monochromatic. But we dont often encounter this in our everyday world. One possible exception is that of certain yellow street lights. These are sodium vapor lights and are nearly monochromatic. The specific wavelength of light emitted by a laser simply depends on the magnitude of the energy difference between the two energy levels in the atoms that emit the laser light. The greater this energy difference, the higher the frequency, the shorter the wavelength, and the more energy carried by each photon of the light. (2) Laser light is coherent. This is one of the key differences between it and normal light. In laser light all the waves are moving in unison. In regular light the waves move independently. Laser light is more organized. You might think of a highly trained army marching along in step, vs. a bunch of people just casually walking across a field. (3) Laser light is directional. The beam is very tight and concentrated. All the light moves in the same direction, as opposed, for example, to the light emitted from a flashlight or an incandescent bulb, which moves off in all different directions. (Teachers Guide to Becker, R. Question from the Classroom. ChemMatters 2003, 21 (2), pp 23) The helium-neon (He-Ne) laser is the one most frequently used in high school physics labs because it is relatively inexpensive and relatively safe. It is classified as a neutral gas laser. The energy transitions for this laser are fairly easy to understand. The gas mixture (~510:1, He:Ne) inside the laser cavity is first zapped (pumped, in laser terms) with approximately 1000 volts of electricity. The laser process in a HeNe laser starts with collision of  HYPERLINK "http://www.chemistrydaily.com/chemistry/Electron" electrons from the electrical discharge with the helium atoms in the gas. This excites helium from the  HYPERLINK "http://www.chemistrydaily.com/chemistry/Ground_state" ground state to the 23S1 and 21S0 long-lived,  HYPERLINK "http://www.chemistrydaily.com/chemistry/Metastable" metastable excited states. [See diagram.] Collision of the excited helium atoms with the ground-state neon atoms results in transfer of energy to the neon atoms, exciting them into the 2s and 3s states. This is due to a coincidence of  HYPERLINK "http://www.chemistrydaily.com/chemistry/Energy_level" energy levels between the helium and neon atoms. This process is given by the reaction equation: He* + Ne ! He + Ne* + E where (*) represents an excited state, and E is the small energy difference between the energy states of the two atoms, of the order of 0.05  HYPERLINK "http://www.chemistrydaily.com/chemistry/Electronvolt" eV. The number of neon atoms entering the excited states builds up as further collisions between helium and neon atoms occur, causing a  HYPERLINK "http://www.chemistrydaily.com/chemistry/Population_inversion" population inversion between the neon 3s and 2s, and 3p and 2p states.  HYPERLINK "http://www.chemistrydaily.com/chemistry/Spontaneous_emission" Spontaneous emission between the 3s and 2p states results in emission of 632.8 nm wavelength light, the typical operating wavelength of a HeNe laser. After this, fast radiative decay occurs from the 2p to the 1s energy levels, which then decay to the ground state via collisions of the neon atoms with the container walls. Because of this last required step, the bore size of the laser cannot be made very large and the HeNe laser is limited in size and power. ( HYPERLINK "http://www.chemistrydaily.com/chemistry/Helium-neon_laser" http://www.chemistrydaily.com/chemistry/Helium-neon_laser) And we would be remiss if we did not mention safe use and potential hazards involved in the use of lasers. Here is another excerpt from the April 2003 ChemMatters Teachers Guide, this one dealing with the biological classifications of lasers. There are four broad categories of lasers with a couple of sub-categories that relate to their potential for causing biological damage. All lasers should be labeled as to their biological classifications. Class IThese are the least harmful. They cannot emit radiation at any known harmful level. They are typically found in devices like laser printers, CD players, CD ROM devices and laboratory analytical equipment. There are no safety requirements governing their use. Class IAThis classification applies only to lasers that are not intended for viewing. The upper limit to the power output of these kinds of lasers is set at 4.0 mW, or 4.0 mill joules per second. Class IIThese are considered to be low-power lasers, but more powerful than Class I. Their upper limit is 1 mW. Although a laser of this power can cause eye damage, it is assumed that this is not likely to occur because of the human tendency to quickly blink or in some other way divert their eyes when they are exposed to a bright light. Some laser safety Web sites state that you would have to look at one of these lasers for an extended period of time, perhaps as long as 15 minutes in order to sustain eye damage. Some laser pointers fall into this category. Class IIIAThese are considered to be of intermediate power, between 1-5 mW. Most pen-like pointing lasers fall into this category. These are considered to be more hazardous than Class II lasers and are never to be viewed directly. A Class IIIA laser should never be pointed at a persons eyes nor should the light ever be viewed with a telescopic device. Class IIIBThese are considered to be of intermediate power, between 5-500 mW. These are often used in spectrometry devices and entertainment light shows. These are considered to be quite hazardous. They should never be viewed directly. Even diffuse reflections can be dangerous. Class IVThese are very high-powered lasers, up to 500 mW. They are used in surgery, research, drilling, cutting and welding. These are very dangerous, not only to the eyes, but to the skin as well. They can also constitute a fire hazard. (Teachers Guide to Becker, R. Question from the Classroom. ChemMatters 2003, 21 (2), pp 23) More on uses of lasers Excimer lasers The wavelength of an excimer laser depends on the molecules used as the lasing medium, and is usually in the ultraviolet region of the electromagnetic spectrum: ExcimerWavelengthRelative Power mWAr2*126nmKr2*146nmXe2*172 & 175nmArF193nm60KrF248nm100XeBr282nmXeCl308nm50XeF351nm45KrCl222nm25( HYPERLINK "http://en.wikipedia.org/wiki/Excimer_laser" http://en.wikipedia.org/wiki/Excimer_laser) These shorter wavelength lasers produce energy that is absorbed by biological material as well as organic compounds. The effect is not burning or cutting, but rather a disruption of chemical bonds at the surface material. This effectively disintegrates into the air in a process known as photoablation. This results in removal of very thin layers of the surface material with almost no heat and no subsequent damage to underlying material. These characteristics make excimer lasers very useful in delicate surface surgery, as in dermatology and especially in eye surgery. It is also useful for precisely micro-machining organic materials, including some polymers and plastics. Eye surgery LASIK surgery and some other types of eye surgery use laser technology. (LASIK is an acronym for Laser-Assisted in Situ Keratomileusis). The lasers used for LASIK are excimer lasers, which generate laser light at 193 nm. An incision is made across the corneal surface to create a flap, which can then be folded back to allow access to the tissue inside the cornea. The instrument used to create this flap is a microkeratome, a metal scalpel of sorts. The excimer laser is then used to cut away some of the underlying corneal tissue to resculpt the cornea to improve vision. Today, more advanced LASIK facilities use two different lasers for bladeless eye surgery. A new device, the femtosecond laser, is used to cut the corneal flap, exposing the rest of the cornea for surgery by the excimer laser. The femtosecond laser produces bursts of laser light at 1053 nm (in the infrared region of the electromagnetic spectrum), a much longer wavelength and therefore lower energy light than the excimer laser. The cornea is transparent to the femtosecond pulses and is not damaged by them. The shorter wavelength excimer laser light will destroy corneal tissue, but only very tiny amounts at a time, in order to reshape the cornea. The process of removing corneal tissue is known as photoablation. It is not really a burning of tissue, but rather a vaporizing of the tissue as it breaks carbon-carbon bonds. The femtosecond laser is a vast improvement over the metal blade, as it results in much more accurate cuts and far fewer post-operative complications. ( HYPERLINK "http://www.ehow.com/about_5188350_kind-used-laser-eye-surgery_.html" http://www.ehow.com/about_5188350_kind-used-laser-eye-surgery_.html) The femtosecond laser procedure was developed at the University of Michigan in 2003. ( HYPERLINK "http://www.lasereyesurgery.com/a-kindler-gentler-cut-for-lasik.html" http://www.lasereyesurgery.com/a-kindler-gentler-cut-for-lasik.html) Skin surgery Excimer lasers are also used for other types of surgeries, including dermatological applications and even angioplasty. The only major disadvantage to excimer lasers is their rather large size, which makes them less desirable for their medical applications. Future development may decrease their size. Photolithographymaking computer chips Other uses include photolithography, manufacturing microelectronic devices like semiconductor integrated circuits. A newer version of excimer laser involves the use of KrF and ArF dimer lasers that produce even smaller wavelength UV light called deep UV. Use of deep UV lithography has miniaturized electronic chip manufacture to the 22-nm level, allowing the continuance of Moores law for at least another decade. (Moores law states that the number of transistors on integrated circuits doubles approximately every two years.) Newer developments in excimer laser use Excimer lasers are being used in these developmental areas as well: Silicon annealing and recrystallizationused in flat-screen technology Micromachining of plastic partsused in inkjet nozzle drilling in inkjet printers Surface modificationused in greener automobile manufacturing; e.g., Audi cars Pulsed Laser Deposition (PLD)used in making superconducting tape ( HYPERLINK "http://photonics.com/Article.aspx?AID=25164" http://photonics.com/Article.aspx?AID=25164) The excimer laser has become an indispensible tool of our technological world, so much so that President Barack Obama awarded Samuel Blum,Rangaswamy Srinivasan andJames Wynne, all from IBM, and co-inventors of the ultraviolet excimer laser, a National Medal of Technology and Innovation. Gholam Peyman, the retina surgeon credited with invention of the Lasik eye surgery procedure (which uses the excimer laser), from Arizona Retinal Specialists, was also awarded one of these prestigious medals. More on national security The U.S. National Ignition Facility (NIF), headquartered at the Lawrence Livermore National Laboratory, is charged with three missions: National Security: How do we ensure the nations security without nuclear weapons testing? Energy for the Future: Where will the worlds energy come from when all the fossil fuels are gone? and How can we produce the energy we need without causing catastrophic climate change? Understanding the Universe: How did the universe come into being? How did the stars and planets form? What happens in supernovas and black holes? One of the facilitys primary goals has been to develop conditions which could initiate a fusion reaction. To reach this goal, the program has built a huge building (think ten stories high, the size of three football fields) to contain an experiment that uses192 very powerful lasers all aimed at a tiny target in the target chamber in the center of the building. The incident ultraviolet light energy will be approximately 2 million joules of energy, all impacting the central target simultaneously. This energy will create conditions similar to those that exist only in the cores of stars and giant planets and inside a nuclear weapon. The resulting fusion reaction will release many times more energy than the laser energy required to initiate the reaction. ( HYPERLINK "https://lasers.llnl.gov/about/nif/" https://lasers.llnl.gov/about/nif/) In order to ensure that the output of the 192 beamlines is uniform, the initial light is generated from a single sourcea low-power flash of 1053 nm infrared light. This is generated by an ytterbium-doped solid state optical fiber laser. The flash from this driver laser is then split and sent into 48 preamplifier modules which amplify the beams. The partially-amplified light goes into the system of 192 flashlamp-pumped neodymium-doped phosphate glass lasers to be greatly amplified before entering the target chamber. A much more detailed account of the generation process can found at  HYPERLINK "http://en.wikipedia.org/wiki/National_Ignition_Facility" http://en.wikipedia.org/wiki/National_Ignition_Facility, or at the NIF Web site: The light emitted from these 192 lasers is infrared light, which is later converted to ultraviolet light just before impacting the target. The 2 million Joules of laser energy slamming into millimeter-sized targets ... can generate unprecedented temperatures and pressures in the target materialstemperatures of more than 100 million degrees and pressures more than 100 billion times Earths atmosphere. ( HYPERLINK "https://lasers.llnl.gov/about/nif/about.php" https://lasers.llnl.gov/about/nif/about.php) Initiating the fusion reaction will simultaneously further the goals of the three missions discussed above. As of the writing of this Teachers Guide, experiments called shots have already produced 1.89 MJ of energy inside the NIFvery close to the 2 million MJ expected to be required for fusion initiation. But fusion initiation is not the only experiment being done in NIF. Other laser shots will help scientists better understand properties of material under extreme conditions and hydrodynamics, the behavior of fluids of unequal density as they mix. Extremely high-speed cameras (a billion frames a second!) inside the target chamber can be used to diagnose the results of the experiments. This video clip describes how the NIF laser-induced fusion reaction will work:  HYPERLINK "https://lasers.llnl.gov/multimedia/video_gallery/how_nif_works.php" https://lasers.llnl.gov/multimedia/video_gallery/how_nif_works.php. If this is unavailable, you can also access it on YouTube at  HYPERLINK "http://www.youtube.com/watch?v=yixhyPN0r3g&NR=1&feature=endscreen" http://www.youtube.com/watch?v=yixhyPN0r3g&NR=1&feature=endscreen. Selected other uses for lasers Consumer Laser pointers Gunsights and targeting systems CD and DVD players Leveling devices Fiber optics for data and telecommunications Supermarket barcode scanners Laser printers Holograms Research Spectroscopy UV-Vis IR Fluorescence Raman Non-linear Laser-induced Breakdown (of molecules) Laser-induced chemical reactions Monitoring of chemical intermediates in reactions Detection of pollutants in air, in wastewater Creating extremely low temperatures at the atomic level Industry Transfer energy to different materials very quickly (cooling and heating) Welding Cutting Drilling Marking Scribing Soldering Micro-machining Heat treating Metal deposition Paint stripping and surface removal Measuring Distancesremote sensing Concentrations Cylindricity of ball bearings Thickness by shadow Speed (LIDAR, like radar, only with laser) Medicine Precision surgery Tumor removal/ablation Cosmetic surgery Dermatology Dentistry Laser acupuncture More on osteoid osteoma This excerpt from a Web-published medical report from the Royal Belgian Society of Radiology affirms claims made about osteoid osteoma in the ChemMatters article. The report concerns a 32-year old man complaining of recurrent pain in the upper thigh. Radiological diagnosis Clinical data and imaging findings are strongly suggestive for a subperiosteal osteoid osteoma of the right acetabulum. Patient underwent a percutaneous CT guided thermocoagulation [needle through the skin and laser heating, tissue destruction of the lesion and had no more pain after this procedure. Biopsy confirmed the diagnosis. [Editors note: This means the CT scan tells where the tumor is; the needle is inserted there through the skin (percutaneous); the laser does the thermo-ablation and heats the tumor to oblivion; the patient is all better, just like the ChemMatters article said.] Discussion Osteoid osteoma is a well known benign osteoblastic tumor, most commonly found in the cortical bone of the long bone shaft and spine. Fusiform sclerosis and a central nidus [place of origin] are seen on radiographs, CT and MRI. The nidus is hot on scintigraphy. Subperiosteal extra-osseous lesions are rare and arise adjacent to bone, usually in the femoral neck, talar neck, hand and foot. Patients are young, usually between 5-40 years. Male/female ratio is 2-3:1. Pain is almost invariably the presenting complaint. Pain relief is accomplished with acetylsalicylic acid. Surgical excision or percutaneous CT guided thermo-ablation are curative and will bring dramatic relief of symptoms. ( HYPERLINK "http://www.rbrs.org/dbfiles/journalarticle_0357.pdf" http://www.rbrs.org/dbfiles/journalarticle_0357.pdf) More on laser treatment of tumors The laser used in the treatment of Chris osteoid osteoma may well have been a neodymium-doped yttrium-arsenic-garnet (Nd:YAG) laser. Nd:YAG lasers emitting light at 1064 nm have been the most widely used laser for laser-induced thermotherapy, in which benign or malignant lesions in various organs are ablated by the beam. ( HYPERLINK "http://en.wikipedia.org/wiki/Nd:YAG_laser" http://en.wikipedia.org/wiki/Nd:YAG_laser) The National Cancer Institute Web page on laser treatment of cancer provides this information: Key Points Laser light can be used to remove cancer or precancerous growths or to relieve symptoms of cancer. It is used most often to treat cancers on the surface of the body or the lining of internal organs. Laser therapy is often given through a thin tube called an endoscope, which can be inserted in openings in the body to treat cancer or precancerous growths inside the trachea (windpipe), esophagus, stomach, or colon. Laser therapy causes less bleeding and damage to normal tissue than standard surgical tools do, and there is a lower risk of infection. However, the effects of laser surgery may not be permanent, so the surgery may have to be repeated. What is laser light? [We already know the answer to this one.] The term laser stands for light amplification by stimulated emission of radiation. Ordinary light, such as that from a light bulb, has many wavelengths and spreads in all directions. Laser light, on the other hand, has a specific wavelength. It is focused in a narrow beam and creates a very high-intensity light. This powerful beam of light may be used to cut through steel or to shape diamonds. Because lasers can focus very accurately on tiny areas, they can also be used for very precise surgical work or for cutting through tissue (in place of a scalpel). What is laser therapy, and how is it used in cancer treatment? Laser therapy uses high-intensity light to treat cancer and other illnesses. Lasers can be used to shrink or destroy tumors or precancerous growths. Lasers are most commonly used to treat superficial cancers (cancers on the surface of the body or the lining of internal organs) such as basal cell skin cancer and the very early stages of some cancers, such as cervical, penile, vaginal, vulvar, and non-small cell lung cancer. Lasers also may be used to relieve certain symptoms of cancer, such as bleeding or obstruction. For example, lasers can be used to shrink or destroy a tumor that is blocking a patients trachea (windpipe) or esophagus. Lasers also can be used to remove colon polyps or tumors that are blocking the colon or stomach. Laser therapy can be used alone, but most often it is combined with other treatments, such as surgery, chemotherapy, or radiation therapy. In addition, lasers can seal nerve endings to reduce pain after surgery and seal lymph vessels to reduce swelling and limit the spread of tumor cells. How is laser therapy given to the patient? Laser therapy is often given through a flexible endoscope (a thin, lighted tube used to look at tissues inside the body). The endoscope is fitted with optical fibers (thin fibers that transmit light). It is inserted through an opening in the body, such as the mouth, nose, anus, or vagina. Laser light is then precisely aimed to cut or destroy a tumor. Laser-induced interstitial thermotherapy (LITT), or interstitial laser photocoagulation, also uses lasers to treat some cancers. LITT is similar to a cancer treatment called hyperthermia, which uses heat to shrink tumors by damaging or killing cancer cells. (More information about hyperthermia is available in the NCI fact sheet Hyperthermia in Cancer Treatment.) During LITT, an optical fiber is inserted into a tumor. Laser light at the tip of the fiber raises the temperature of the tumor cells and damages or destroys them. LITT is sometimes used to shrink tumors in the liver. Photodynamic therapy (PDT) is another type of cancer treatment that uses lasers. In PDT, a certain drug, called a photosensitizer or photosensitizing agent, is injected into a patient and absorbed by cells all over the patients body. After a couple of days, the agent is found mostly in cancer cells. Laser light is then used to activate the agent and destroy cancer cells. Because the photosensitizer makes the skin and eyes sensitive to light afterwards, patients are advised to avoid direct sunlight and bright indoor light during that time. (More information about PDT is available in the NCI fact sheet  HYPERLINK "http://www.cancer.gov/cancertopics/factsheet/Therapy/photodynamic" Photodynamic Therapy for Cancer.) What types of lasers are used in cancer treatment? Three types of lasers are used to treat cancer: carbon dioxide (CO2) lasers, argon lasers, and neodymium:yttrium-aluminum-garnet (Nd:YAG) lasers. Each of these can shrink or destroy tumors and can be used with endoscopes. CO2 and argon lasers can cut the skins surface without going into deeper layers. Thus, they can be used to remove superficial cancers, such as skin cancer. In contrast, the Nd:YAG laser is more commonly applied through an endoscope to treat internal organs, such as the uterus, esophagus, and colon. Nd:YAG laser light can also travel through optical fibers into specific areas of the body during LITT. Argon lasers are often used to activate the drugs used in PDT. What are the advantages of laser therapy? Lasers are more precise than standard surgical tools (scalpels), so they do less damage to normal tissues. As a result, patients usually have less pain, bleeding, swelling, and scarring. With laser therapy, operations are usually shorter. In fact, laser therapy can often be done on an outpatient basis. It takes less time for patients to heal after laser surgery, and they are less likely to get infections. Patients should consult with their health care provider about whether laser therapy is appropriate for them. What are the disadvantages of laser therapy? Laser therapy also has several limitations. Surgeons must have specialized training before they can do laser therapy, and strict safety precautions must be followed. Laser therapy is expensive and requires bulky equipment. In addition, the effects of laser therapy may not last long, so doctors may have to repeat the treatment for a patient to get the full benefit. What does the future hold for laser therapy? In clinical trials (research studies), doctors are using lasers to treat cancers of the brain and prostate, among others. To learn more about clinical trials, call NCIs Cancer Information Service at 18004CANCER or visit the clinical trials page of NCIs Web site. ( HYPERLINK "http://www.cancer.gov/cancertopics/factsheet/Therapy/lasers" http://www.cancer.gov/cancertopics/factsheet/Therapy/lasers) Laser treatment of tumors is not the only game in town, either; treatment of tumors by thermal ablation can be done using many different moieties. Thermal tumor ablation modalities either freeze or heat tumors to lethal temperatures. These include cryoablation, radiofrequency (RF), microwave, laser and high-intensity focused ultrasound (HIFU). ( HYPERLINK "http://www.cancernews.com/search/fulltext.asp?cat=26&aid=504&Type=all&SearchStr=laser&Archives=on" http://www.cancernews.com/search/fulltext.asp?cat=26&aid=504&Type=all&SearchStr=laser&Archives=on) Especially for liver tumors, invasive surgery is often not the answer, as liver cancer is often discovered in late stages of development, potentially with many tumors spread throughout the liver. Image-guided tumor ablation then becomes the best choice for treatment for these types of cancers. More on the effect of heat on tumors Local hyperthermia (ablation) is the process of heating tumors to the point of extinction. The effect of increased temperature on tumor cells is to desiccate the cells, thereby destroying them and the tumor, coagulating nearby proteins and destroying blood vessels that had supplied blood to the tumor. In effect, the cells are cooked. The hoped-for outcome is total destruction of the tumor, or at least diminishing its size and slowing its growth. As mentioned previously, thermal ablation can use any of the following sources of energy. Here is a short video clip from the University of Wisconsin-Madison that describes thermal ablation: Radio frequency ablation (RFA) Ultrasound ablation (HIFUhigh intensity focused ultrasound) Laser ablation Microwave ablation Electric current The method the doctor finally chooses to use depends on many factors; e.g., size of the tumor, its location, the number of tumors, proximity to other body parts, degree of comfort/familiarity of doctor with using method, cost, past efficacy, etc. Here is a short (7:16) video clip from the University of Wisconsin-Madison that describes thermal ablation and discusses one patients treatment, from observations and diagnosis right through to the actual operation and follow-up:  HYPERLINK "http://www.jove.com/video/2596/thermal-ablation-for-the-treatment-of-abdominal-tumors" http://www.jove.com/video/2596/thermal-ablation-for-the-treatment-of-abdominal-tumors. (The video uses very detailed medical terminology, but students may actually like the video because of this.) More on other modes of treatment The use of lasers in the treatment of cancer is a relatively new development. Here are a few other modalitiesother than surgery, radiation and chemotherapythat have been in use for some time, and a few new ones that are getting attention as well. From the ChemMatters Teachers Guide for October 2007, one article of which dealt with the life and research of Percy Julian, a specialist in developing useful products from the soy bean and the yam, comes the following: Anticancer DrugsThere are a number of drugs used to treat cancer which are derived from plants. Among them are: Rosy periwinkle (Catharanthus roseus)used to treat leukemia and Hodgkins Disease MayappleThis plant contains podophyllotoxin, which is the starting material for producing the antitumor agent etoposide, used for the treatment of lung and testicular cancer. Pacific Yew(taxus brevifolia)contains the compound taxol, used in the treatment of ovarian and breast cancer. And the following excerpt is from the ChemMatters Teachers Guide for December 2001. The article for which the material was researched is Trolling the Seas for New Medicines: One of the most exciting and promising of new anti-cancer drugs may be a compound called ecteinascidin (pronounced ed-TIN-aside-in) and a simpler, easier to make form called phthalascidin (pronounced THAL-aside-in). This has been described as the most complicated molecule ever to be made on a commercial scale by Elias, J. Corey, who won the 1990 Nobel Prize in chemistry. The two primary researchers are Corey, and one of his graduate students, Eduardo Martinez. The drug is approximately 100-500 times stronger than Taxol in inhibiting tumor cell growth, and in general is estimated to be hundreds to thousands of times more potent than most current cancer drugs. Researchers estimate that eleven pounds of the drug would be sufficient to satisfy the needs of the entire world for a year. So promising is this drug that it is being rushed through clinical trials and it is hoped that it may be available some time in 2002. At the present time, ecteinascidin is being tested on terminally ill patients afflicted with cancers of the blood vessels, tendons, muscles, and other soft tissues. According to Corey, There hasnt been effective chemotherapy for such cancers. The drug was first discovered by Ken Rinehart of the University of Illinois in the 1980s. Rinehart obtained the original samples of the drug from sea squirts (Ecteinascidia turbinate) he collected from reefs in the West Indies. The drug provides an excellent illustration of the difficulties often encountered in trying to isolate a drug from a marine organism. Ten pounds of sea squirts only yielded a few millionths of an ounce of ecteinascidin. Attempts to farm sea squirts achieved very limited success. Clearly what was needed was a way to synthesize the drug rather than obtaining it from sea squirts. Following a two-year effort, David Gin, a post-doctoral student at Harvard University, achieved the synthesis in 1996. Even then, the synthesis was tedious. A more efficient process was developed by Eduardo Martinez. Ecteinascidin evidently works by interacting with DNA and an unknown protein contained in cancer cells. Unlike standard chemotherapy treatments, which kill cancer cellsand healthy cells as wellthe drug doesnt actually kill cells. Instead, it prevents treated cells from reproducing and growing. When tested on drug-resistant colon, lung, melanoma, and prostate tumor cells grown in Petri dishes, the drug inhibited cell growth in all cases. If it works as well on patients, this will prove to be one of the most important anti-cancer drugs ever developed. (Teachers Guide for Black, H. Trolling the Seas for New Medicines. ChemMatters 2001, 19 (4), pp 67). But the oceans arent the only source of cancer-fighting substances. One Web page on the PBS site is called Venoms Healing Bite by Kate Becker. This page focuses on six venomous animals, the fluids from whose bites or stings are being researched as potential cures for various diseases/symptoms. Three of the six studies focus on cancer treatment. Targeting cancer The sting of the "death stalker" scorpion, Leiurus quinuestriatus, contains neurotoxins that can paralyze and kill. But one component of this scorpion's venom, chlorotoxin, could one day save lives, too, because it is drawn to cancer cells like a magnet to iron. By combining a synthetic chlorotoxin with a radioactive form of iodine, researchers can deliver radiation directly to cancer cells. Nanoparticle-spiked chlorotoxin may also slow the spread of cancer and could help deliver gene therapy to cancer cells. Because chlorotoxin can cross the blood-brain barrier, scientists are particularly interested in using it to treat brain cancers like glioma. Chlorotoxin can also help doctors spot cancer cells by selectively "painting" them with a fluorescent beacon. Keeping tumors in check The bite of the southern copperhead Agkistrodon contortrix, a pit viper common in the eastern United States, is rarely fatal to humans, but it delivers a painful dose of venom. One component of the venom, a protein named contortrostatin, could stop the spread of cancer cells. Contortrostatin doesn't kill cancer cells; instead it holds them in check by interfering with surface proteins and blocking other mechanisms the cells need to move around the body. Contortrostatin also starves out tumors by staunching the growth of blood vessels that deliver nutrients to the malignant cells. Contortrostatin has been tested on breast, ovarian, prostate, melanoma, and brain cancers in mice, and researchers hope to start human clinical trials soon. Killing cancer cells The sharp pain of a honeybee sting is caused in part by a peptide called melittin, which kills cells by piercing holes in their membranes. To turn this indiscriminate killer into a fine-tuned cancer drug, researchers have combined it with nanoparticles and cancer-targeting agents that allow the melittin to "sting" cancer cells without harming healthy cells. Though the treatment has not yet been tested on human patients, it has shown promise on mice. Researchers also hope to harness melittin's cell-killing power to knock out other diseases, including bacterial and fungal infections and arthritis. ( HYPERLINK "http://www.pbs.org/wgbh/nova/body/venoms-healing-bite.html" http://www.pbs.org/wgbh/nova/body/venoms-healing-bite.html) From the October 14, 2010 edition of Science Daily comes this report of doctors at Mayo Clinics Florida campus successfully using laser ablation for kidney and liver tumors. Laser ablation has been used extensively for brain tumors, but until now (2010) it had not been used in the U.S. for soft tissue. Physicians at Mayo Clinic's Florida campus are among the first in the nation to use a technique known as MRI-guided laser ablation to heat up and destroy kidney and liver tumors. So far, five patients have been successfully treated -- meaning no visible tumors remained after the procedure. They join their colleagues at Mayo Clinic's site in Rochester, Minn., who were the first to use laser ablation on patients with recurrent prostate tumors. Although the treatment techniques are in the development stage, the physicians say the treatment is potentially beneficial against most tumors in the body -- either primary or metastatic "Laser ablation offers us a way to precisely target and kill tumors without harming the rest of an organ. We believe there are a lot of potential uses of this technique -- which is quite exciting," says Eric Walser, M.D., an interventional radiologist who has pioneered the technique at Mayo Clinic, Florida. In the United States, laser ablation is primarily used to treat brain, spine and prostate tumors, but is cleared by the U.S. Food and Drug Administration (FDA) for any soft tissue tumor. Only a few centers have adapted the technique to tumors outside of the brain ... The outpatient procedure is performed inside an MRI machine [similarly for CT scan machine], which can precisely monitor temperature inside tumors. A special nonmetal needle is inserted directly into a tumor, and the laser is turned on to deliver light energy. Physicians can watch the temperature gradient as it rises, and they can see exactly in the organ where the heat is. When the tumor and a bit of tissue that surrounds it (which may harbor cancer cells) is heated to the point of destruction -- which can be clearly seen on monitors -- the laser is turned off. In larger tumors, several needles are inserted simultaneously. Patients are given anesthesia because, during the 2.5-minute procedure they should not move, Dr. Walser says. Dr. Walser adds that laser ablation is a much more precise technology than similar methods that use probes, such as radiofrequency ablation, which also raises a tumor's temperature, and cryotherapy, which freezes tumors. David Woodrum, M.D., Ph.D., from Mayo Clinic, Rochester, has also reported success using the new technique. At the March meeting of the Society of Interventional Radiology, Dr. Woodrum, presented results from the first known cases of using MRI-guided laser ablation to treat prostate tumors. He said then that the safe completion of four clinical cases using the technique to treat prostate cancer in patients who had failed surgery "demonstrates this technology's potential." Dr. Woodrum has now treated seven patients, including a patient with melanoma whose cancer had spread to his liver. "MRI-guided ablation may prove to be a promising new treatment for prostate cancer recurrences," he says. "It tailors treatment modality (imaging) and duration to lesion size and location and provides a less invasive and minimally traumatic alternative for men." ( HYPERLINK "http://www.sciencedaily.com/releases/2010/10/101014131923.htm" http://www.sciencedaily.com/releases/2010/10/101014131923.htm) Connections to Chemistry Concepts (for correlation to course curriculum) Electromagnetic spectrumWavelengths and frequency for laser light can be calculated, just as for normal light. Properties of lightLight behaves both as a particle and as a wave, and both can be used to discuss how a laser works and what its output is. Frequencies, wavelengths and energies of photons are all related to the speed of light via Einsteins equation, E = mC2. These properties of laser light are identical to those of normal light. The only difference is that the green (for example) laser light is much more intense and has much more energy associated with it only because there are so many photons in the beam of laser light. The energy per photon of green light is the same for laser light and normal light. Atomic theoryFrom Bohrs model of the atom and spectral lines to the quantum theory, and the wave/particle duality of light, lasers fit right in. Electrons and energy levelsexcited and ground statesAll the reactions discussed with the lead-acid and lithium-ion batteries involve oxidation and reduction reactions. Periodic TableElements on the periodic table are arranged according to physical and chemical properties. Students may be able to see a correlation between some of the elements that are useful in lasers with their positioning on the table. Chemical and physical propertiesThese properties make specific elements or compounds useful for specific types of lasers. Possible Student Misconceptions (to aid teacher in addressing misconceptions) Laser pointers are harmless; everybody has them. Although everybody may have them, that doesnt make them harmless. They are relatively safe as long as one makes sure NOT to point them directly at someone elses (or their own) eyes. And if you watch the news, you may occasionally see that someone has been arrested for shining a green laser at a low-flying airplane or helicopter. These lasers are powerful enough to do retinal damage if they are shined into ones eyeseven at fairly long distances. A pilot can be blinded by the light if it shines directly into his eyes, and this could cause him to crash the airplane. Lasers are just very bright lights. While its true that theyre bright lights, theres more to them than just that. They are also monochromatic (having only one wavelength), and the photons of light emitted are all in phase (traveling in the same direction, according to the article), and the photons are very focused into a narrow beam. This makes laser light much more intenseand dangerousthan normal light. If lasers can surgically remove tumors, then they can be used to cut out all types of cancers within the body. Whoa, not so fast! Laser light can be used effectively to surgically remove lumps of cancerous tissuetumorswhich are concentrated in one part of the body. Using laser light to cut out many small tumors throughout the body (when the cancer has metastasized, for instance) would be almost impossible, as doctors would be unable to insert a needle into each one of these small cancerous blobs to destroy them. And the more cancerous cells there are, the more likely that some of the laser light might miss its intended target and hit (and destroy) healthy tissue. Everybody should have a CT scan to make sure they dont have any tumors. CT scans are actually X-rays that pass through the body. The CT scan uses more radiation than a normal X-ray, and exposes the body to radiation that could damage DNA in cells that could actually produce cancerous cells, rather than just detect them. Doctors must determine if the benefits of detecting tumors with the CT scan outweigh the risks of causing cancers with the CT scan. Costs of CT scans must also be taken into consideration when doctors weigh benefits and risks. And some tumors that are discovered may be benign and cause no problems for the patient, but he/she might still demand that the tumors be removed at great cost to society, for little real benefit. It should be easy for a doctor to cut that thin layer of skin with a laser. After all, the laser beam makes a bright, straight line right to the target so its easy to see the beam, just like in all the Star Wars movies. Actually, those laser beams shining through the vacuum of space so you can see where theyre going is really just science fiction, not science fact. You cant generally see a laser beam until it hits its target, whatever that might be. Remember that the beam is photons all traveling in the same direction, so they cant be seen from the sides of the photon path, unless theres dust in the air that might deflect some of the photons. (In the case of higher energy green or blue laser light pointers, you might be able to see their beam due to Rayleigh scattering on individual molecules in the air.) Anticipating Student Questions (answers to questions students might ask in class) Who discovered the laser? See More on the history of the laser, above. Whats the difference between sunlight and laser light? Several differences exist between sunlight and laser light: Sunlight Laser light Broad spectrum lightmade of a. Monochromatic, or almost somade of only many wavelengths of light one, or very few wavelengths of light Incoherentspreads out as it b. Coherentdisperses very little as it travels, travels all photons are in phase Non-directional and not focused c. Directional and focusednearly parallel beam light is generated in all directions of photons (when collimated) from source What is an excited state? A ground state? How electrons get from one to the other? And how does that make laser light? Lets start with the ground state. Electrons are usually in the ground state, their lowest energy state within the atom. When they are zapped with electricity or light, electrons absorb this energy and jump to higher energy states; these are the excited states. In most cases, excited states are very transientelectrons are more stable in the ground state, so they almost instantaneously jump back down (in energy terms) to the ground state and release that extra energy they absorbed when they became excited And that is normal light. But in some cases, the excited state is just a tad more stable than normala metastable state. In this state, the electrons can maintain their higher energy for a brief time. If sufficient numbers of ground-state electrons reach this metastable excited state, they can form a population inversion wherein more metastable excited electrons exist than stable ground-state electrons. At this point, it another high-energy photon or electron (probably from pumping) comes along, it will induce a metastable excited electron to jump to the ground state, thereby emitting a photon, which can induce another excited electron to do likewise, etc. All the electrons jumping to the ground state en masse generate all the photons that become the laser beam. What do they use to make a laser? Scientists can use a lot of different things to make lasers because there are a lot of different types of lasers: gas lasers, solid state lasers, semiconductor lasers, metal-vapor lasers dye lasers, and free-electron lasers, just to name a few. A laser can contain any one, two, or more of these elements (and perhaps others): He N2 O Ne Ar Ti Cr Cu Se Kr Y Cd I Xe Ce Pr Sm Nd Ho Er Tm Yb Au Hg U They can also contain HF, CO, CO2, C2H4, CaF2, ArF, KrF, XeCl, XeF, various organic dyes, some minerals (chrysoberyl, garnet and sapphire, for example), and some semiconductors, such as GaN, AlxGa1-xAs and YAG (yttrium aluminum garnet). What is the laser medium the article talks about? The medium is the substance that undergoes pumping, absorbing electrical or photonic energy that sends some of the mediums electrons to higher, usually metastable energy levels to provide the population inversion required to initiate the generation of laser light. The materials above are all potential laser mediums. Whats the difference between the commonly available red lasers used for laser pointers and the less common green laser used for the same purpose? Well, ones red and ones green OK, sorry, here we go. The red lasers that are prevalent today, used for laser pointers, emit light in the 630700 nm region of the spectrum, with the most common wavelengths being 635 [ruby red], 655 [red-orange] and 671 nm. The green laser emits between 490 and 560 nm, with the most common being 532 nm [emerald green]. Red lasers can simply use a red laser diode and a lens to generate the laser beam; however, no similar diode exists for the green region of the spectrum, so the green laser uses a diode that emits in the 808 nm region of the spectrum (in the infrared).A crystal then converts the 808 nm to 1064 nm and a second, polarized crystal doubles the frequency, halving the wavelength to the green 532 nm light. This makes the green laser pointer much more expensive than its simpler red counterpart. Another difference between the two lasers is visibility. The human eye is much more sensitive to green light than to red light. This is why the green laser beam seems so much brighter than the red (from 10-50 times brighter). ( HYPERLINK "http://ezinearticles.com/?What-is-the-Difference-Between-Green-and-Red-Lasers?&id=1815249" http://ezinearticles.com/?What-is-the-Difference-Between-Green-and-Red-Lasers?&id=1815249) The green laser pointer is most likely a DPSS (diode pumped solid state) laser or a DPSSFD (diode pumped solid state frequency-doubled) laser. An announcement was made in 2009 that a direct green laser that does not require doubling the frequency had been developed. This could open (has opened) the door for a laser-based RGB laser projector, since red and blue laser diodes already exist. ( HYPERLINK "http://en.wikipedia.org/wiki/Green_laser_pointer#Green" http://en.wikipedia.org/wiki/Green_laser_pointer#Green) This source shows cutaway schematics of both laser pointers for comparison:  HYPERLINK "http://searchwarp.com/swa141478.htm" http://searchwarp.com/swa141478.htm. Yet another difference between the two lasers is that the red beam is usually not visible until it hits its target, while the green beam is visible all the way to its target, due to Rayleigh scattering. This makes it useful for astronomers to point out specific stars or constellations in the night sky. What makes the green laser pointer more dangerous than the red pointer? First, a green laser light photon has a shorter wavelength than one of red light. That means it has a higher frequency and therefore a higher energy. More energy means more potential damage to the eye (assuming thats the danger youre referring to), so this may be at least part of the reason it is potentially more dangerous. But there are two other factors to consider. 1) The total energy of the beam is also dependent on the number of photons; one green photon doesnt have as much energy as, say, a hundred red photons. So if the green laser pointer actually is brighter or more intense (more dangerous), it may be because it has a higher wattage rating (say, 10 mW vs. 5 mW for a red pointer) that delivers more photons per second than does the red laser light. 2) The sensitivity of the eye to each wavelength/color of light. Weve already said above that the human eye is more sensitive to green light than to red. That means that green light of equal intensity to red would appear to us to be brighter (maybe more destructive to eye tissue), even though that may not be the case. Why is general anesthesia needed for this laser surgery? The patient is given a general anesthesia because the laser must be focused exactly on the tumor and that requires that the patient remain completely still so the laser doesnt go roaming about killing innocent nearby tissue. Being unconscious leaves you pretty still, eh? Also, I imagine the placement of the needlethrough the skindoesnt tickle, either. How do radio waves and lasers differ in cancer treatment? Radio frequency ablation is effective, but in addition to heating up the tumor tissue, it also raises the temperature of nearby tissue (it is less focused); laser ablation only heats up the tissue at which it is aimedthe tumor (laser light is more focused, remember?). Laser ablation is also much quickerperhaps as much as five or more times fasterthan radio frequency ablation. This results in fewer complications and quicker surgery. What other uses are there for lasers? Lasers are used widely in many different applications across a variety of industries. See More on uses of lasers above for more information. In-Class Activities (lesson ideas, including labs & demonstrations) The National Ignition Facility at the Lawrence Livermore National Laboratory in California offers a video or audio clip (you choose) dealing with their Super Laser at the NIF. It comes complete with California Science Standards, a glossary of science terms, background information for the student, a Segment Summary Student Sheet and a Personal Response Student Sheet. It also includes specific questions the teacher can ask students to answer through their viewing of the video. Download the pdf file at  HYPERLINK "http://science.kqed.org/quest/files/imp/download/44/203a_SuperLaseratNIF.pdf" http://science.kqed.org/quest/files/imp/download/44/203a_SuperLaseratNIF.pdf. The video and/or audio clips are also available at this same site. An experiment from Middlebury College to build a He-Ne laser from readily available optical components is described here:  HYPERLINK "http://ixnovi.people.wm.edu/phys251/web_manuals/HeNelaser.pdf" http://ixnovi.people.wm.edu/phys251/web_manuals/HeNelaser.pdf. Although the lab itself may be more than you want to or can do, it does contain an energy level diagram of the energy levels and jumps of electrons from helium and neon responsible for the laser effect. You can definitely connect the energy transitions of some laser action; e.g., the He-Ne laser, to electron energy positions and transitions within atoms. (See 2, above.) Experiments with lasers: a. There are two experiments students can do using lasers to a) measure the wavelength of laser light and b) determine the amount of data on a CD. Both are discussed in this lab procedure from Harvard:  HYPERLINK "http://isites.harvard.edu/fs/docs/icb.topic150831.files/Lab10.pdf" http://isites.harvard.edu/fs/docs/icb.topic150831.files/Lab10.pdf. Note that these are really physics labs, rather than chemistry labs. b. Another series of experiments with lasers is found here:  HYPERLINK "http://bigbro.biophys.cornell.edu/~toombes/Science_Education/Laser_Diffraction/Diffraction_Lesson.pdf" http://bigbro.biophys.cornell.edu/~toombes/Science_Education/Laser_Diffraction/Diffraction_Lesson.pdf. Although the source is Cornell, the intro addresses what seem to be high school standards. This pdf contains photos and teacher materials to help with set-up of the experiments. If you want to discuss the science behind the laser, International Fiber Optics, the maker of Metrologic lasers, has an old version of their experiment book, Experiments Using a Helium-Neon Laser available online. The early part of this pdf document (pp 1216) contains good coverage of the entire process of laser light generation, including pumping, population inversion and electron energy levels. ( HYPERLINK "http://www.i-fiberoptics.com/pdf/45-700-manual.pdf" http://www.i-fiberoptics.com/pdf/45-700-manual.pdf) Semiconductor laser diodes involve the use of various semiconductors. When discussing the periodic table, you can show how elements in column 14 and its two neighbor columns on either side can become conductive. You can illustrate the effect of adding dopants to these elements making them electrical conductive by using an analogy. Pure water doesnt conduct electricity (and you can show this with a conductivity tester. Yet when we add just a pinch of salt to the pure water, it conducts extremely well. The same is true of adding dopant to an element of the aforementioned columns of the periodic table. ( HYPERLINK "http://edonline.ua.edu/aeep/lessons/conductors.pdf" http://edonline.ua.edu/aeep/lessons/conductors.pdf) Here is a YouTube video (NSF?) that simulates normal light vs. laser light using students moving, either randomly or in sync:  HYPERLINK "http://www.youtube.com/watch?v=fhiOQSc5n90" http://www.youtube.com/watch?v=fhiOQSc5n90. A two-part YouTube video lecture (~29 minutes total) (in the format of the Kahn Academy videos, with a black screen and colored writing developing with the lecture) shows how the He-Ne laser works. It discusses the electron energy level jumps and population inversion. ( HYPERLINK "http://www.youtube.com/watch?v=O4dwOCwKfzk" http://www.youtube.com/watch?v=O4dwOCwKfzk and  HYPERLINK "http://www.youtube.com/watch?v=LSS9EUy6vg8&NR=1&feature=endscreen" http://www.youtube.com/watch?v=LSS9EUy6vg8&NR=1&feature=endscreen) It might be interesting to show students a LED bulb by itself and light it with a 9-volt battery. You can purchase single LEDs very inexpensively at Radio Shack stores. You can demonstrate to students that the LED will light when the leads are connected to the battery terminals, but when you reverse the leads, the LED wont light (hence, semi-conductor). You can show students that laser beams are invisible in ordinary air by shining a laser across the room. They will see it as it hits the wall or whiteboard, but not its path to get there. Make sure they are looking perpendicular to the beams path. If you create smoke or dust in its path, the laser beam then becomes visible as the particles in its path deflect some of the photons in the beam. The same effect can be seen by shining the laser through pure water or a clear solution. They wont see the beams path. Then add something that will make a colloid, like a few drops of milk or a bit of fine powder. The beam will now be visible through the liquid as the particles again deflect the beam. Both the dust in the air and the particles that make the water a tad cloudy are examples of colloids, and the visible beams are examples of the Tyndall effect. Out-of-class Activities and Projects (student research, class projects) Progress in developing a new technology often is inhibited by the need for supporting science and technology that does not yet exist. Students might want to research the history of lasers in light (no pun intended) of this statement and share that knowledge with their classmates. If you dont have much class time for the study of lasers, you might want to assign students to visit this Web site to learn on their own about lasers:  HYPERLINK "http://www.colorado.edu/physics/2000/lasers/" http://www.colorado.edu/physics/2000/lasers/. It provides a dialogue between a student and teacher, and it has animations along the way to help students understand the science behind the content. In fact, if you go back to the table of contents for this site,  HYPERLINK "http://www.colorado.edu/physics/2000/index.pl?Type=TOC" http://www.colorado.edu/physics/2000/index.pl?Type=TOC, youll find a lot of interactive information pages about atoms, electrons and light. Students can research the various types of lasers and their applications, and try to determine what properties of that specific laser make it useful for that particular purpose. Research is now being conducted on the medical applications of laser diodes. They have both advantages and disadvantages compared to the use of genuine laser beams. Students might research and report on some of these medical applications, as well as the advantages and disadvantages of using laser diodes (sometimes called super luminescent light-emitting diodes) as opposed to classical lasers. (Teachers Guide for April 2001 ChemMatters, Graham, T. Light-Emitting DiodesTune in to the Blues. ChemMatters 2001, 19 (2), pp 45) References (non-Web-based information sources)  SHAPE \* MERGEFORMAT  Garliclove it or hate it! Thats the basis for this article in ChemMatters. It discusses allicin, the major active ingredient in garlic, and its benefits and risks. But the author also discusses its anti-cancer properties. (Black, H. Garlic: Strong Aroma, Strong Effects ChemMatters 1995, 13 (4), pp 1315) The ChemMatters article Fireworks in the Smokestack discusses laser spark spectroscopy and how lasers help scientists detect various metal pollutants as they leave smokestacks of modern incinerators, both municipal and industrial. Author Scott draws an analogy between the colors and spectra of fireworks, which are due primarily to the metal atoms electron excitations and the similar effects caused by laser impact. (Scott, D. Fireworks in the Smokestack. ChemMatters 1996, 14 (1), pp 89) This article describes the chemistry behind light emitting diodessome of the main lasing mediums in semiconductor diode lasers: Graham, T. Light-Emitting DiodesTune in to the Blues. ChemMatters 2001, 19 (2), pp 45. The ChemMatters Teachers Guide to the April 2001 issue includes background information for teachers concerning p and n type semiconductors and the p-n junction. It also describes how to create a laser using a light-emitting diode, and the probability that LED lights will eventually replace incandescent light bulbs (which they already are doing). This issue of ChemMatters contains a good article on the chemistry of tattoos, including mention of removal by laser surgery: Rohrig, B. Tattoo Chemistry Goes Skin Deep. ChemMatters 2001, 19 (3), pp 67). The ChemMatters Teachers Guide to the October 2001 issue includes a little more detail about what is involved in removal of tattoos, from the early days of sanding away surface layers of skin to dermabrasion to laser removal. Interestingly, the ChemMatters issue contains two articles that contain references to lasers and the Teachers Guide to this issue contains three articles that have references to lasers. Trolling the Seas for New Medicines describes the search by pharmaceutical companies to find new medicines from aquatic life. Cancer is obviously a disease theyd like to focus on when finding new plant/animal life for drugs. (Black, H. Trolling the Seas for New Medicines. ChemMatters 2001, 19 (4), pp 67) The ChemMatters Teachers Guide for the December 2001 issue (above) includes background information for teachers concerning two new anti-cancer drugs being developed from marine lifesea squirts to be precise. Check out the Question from the Classroom in the December 2002 issue of ChemMatters. In this feature author Becker discusses how CD players and burners work, including the role the semiconductor diode laser plays in playing the music. (pun intended). (Becker, R. Question from the Classroom, How Do CD Players Work? ChemMatters 2002, 20 (4), p 2) In Nanotechnology: World of the Super Small the author discusses what nano means, and applications of nanotechnology, including cooking up a new drug delivery system with viral capsids that just might be able to carry potent anti-cancer drugs directly to the tumor site. (Rosenthal, A. Nanotechnology: World of the Super Small. ChemMatters 2002, 20 (4), pp 913) In this Question from the Classroom in the April 2003 issue of ChemMatters, Bob Becker discusses how lasers work and why theyre special. (Becker, R. Question from the Classroom, How do lasers work and what is so special about laser light? ChemMatters 2003, 21 (2), pp 23,  HYPERLINK "http://portal.acs.org/portal/PublicWebSite/education/resources/highschool/chemmatters/archive/CNBP_028409" http://portal.acs.org/portal/PublicWebSite/education/resources/highschool/chemmatters/archive/CNBP_028409) The April, 2003 ChemMatters Teachers Guide includes useful background information for teachers about lasers. Author Rohrig discusses cryogenics in this ChemMatters article. Among other uses for cryogenics, scientists have applied it to cryosurgery to battle cancer, both on the skin and within the body. (Rohrig, B. Cryogenics: Extremely Cold Chemistry. ChemMatters 2004, 22 (1), pp 1416,  HYPERLINK "http://portal.acs.org/portal/PublicWebSite/education/resources/highschool/chemmatters/CTP_005370" http://portal.acs.org/portal/PublicWebSite/education/resources/highschool/chemmatters/CTP_005370) In the ChemSumer section of this issue of ChemMatters Battling Zits tells the story of teenage angst. But it includes a little bit about laser surgery, including wavelengths of laser emission and what laser beams do to acne. (Baxter, R. ChemSumer, Battling Zits. ChemMatters 2005, 23 (2), pp 46,  HYPERLINK "http://portal.acs.org/portal/PublicWebSite/education/resources/highschool/chemmatters/CTP_005380" http://portal.acs.org/portal/PublicWebSite/education/resources/highschool/chemmatters/CTP_005380) In this article about digital photography and printing, author Rohrig discusses the roles semiconductors and lasers play in both devices. (Rohrig, B. The Chemistry of Digital Photography and Printing. ChemMatters 2006, 24 (1), pp 47,  HYPERLINK "http://portal.acs.org/portal/PublicWebSite/education/resources/highschool/chemmatters/archive/CNBP_025144" http://portal.acs.org/portal/PublicWebSite/education/resources/highschool/chemmatters/archive/CNBP_025144) Web sites for Additional Information (Web-based information sources) More sites on the history of the laser The Laserfest Web site, a celebration of 50 years of laser development (19602010), contains a timeline of laser science milestones at  HYPERLINK "http://laserfest.org/lasers/history/timeline.cfm" http://laserfest.org/lasers/history/timeline.cfm. You can drag the cursor across the screen to view discoveries that happened at various times, from 1900 to 2009. Clicking on any of the discoveries provides more information about that event. Heres another slide-the-cursor timeline from Photonics Media:  HYPERLINK "http://www.photonics.com/linearcharts/default.aspx?ChartID=2" http://www.photonics.com/linearcharts/default.aspx?ChartID=2. This timeline begins at 1950. The Nobel Prize Web site contains a Laser Challenge game for kids (middle school, maybe) that asks them to answer questions about uses and history of lasers. They can get points in a game format:  HYPERLINK "http://www.nobelprize.org/educational/physics/laser/challenge.html" http://www.nobelprize.org/educational/physics/laser/challenge.html. More sites on laser science For more information about lasershow they work, how they were developed, types of lasers and their uses, as well as a list of links to other laser sites, see the EnglishInfo! (yeah, I know sounds improbable) Web site at  HYPERLINK "http://english.turkcebilgi.com/Lasers" http://english.turkcebilgi.com/Lasers. For detailed information on lasers visit the RP Photonics Web site, Encyclopedia of Laser Physics and Technology at  HYPERLINK "http://www.rp-photonics.com/encyclopedia_p.html" http://www.rp-photonics.com/encyclopedia_p.html An alphabet at the top allows you to search for an item by clicking on the first letter of the item. Here is a detailed discussion of how excimer lasers work, from Photonics Handbook:  HYPERLINK "http://photonics.com/Article.aspx?AID=25164" http://photonics.com/Article.aspx?AID=25164, It includes diagrams and microphotographs. Laser Fundamentals provides more detail about how a laser works and gives descriptions of several different types of lasers: HYPERLINK "http://www.fas.org/man/dod-101/navy/docs/laser/fundamentals.htm" http://www.fas.org/man/dod-101/navy/docs/laser/fundamentals.htm. Wikipedia has a good Web page on the He-Ne laser at  HYPERLINK "http://en.wikipedia.org/wiki/Helium%E2%80%93neon_laser" http://en.wikipedia.org/wiki/Helium%E2%80%93neon_laser. More sites on uses of lasers The Optics.org Web site contains this page about LGs new (2013) 100-inch laser projected television about to go on display:  HYPERLINK "http://optics.org/news/3/12/37" http://optics.org/news/3/12/37. Dubbed the hecto-laser TV, it can be ceiling-mounted only 22 inches from the screen/wall. (Hecto is the prefix for 100.) These videos show commercial television stations covering the progress of the U.S. National Ignition Facility (NIF): CBS Sunday Morning News, which did not view NIF in a very favorable light:  HYPERLINK "http://www.cbsnews.com/video/watch/?id=7403916n&tag=contentMain;contentBody" http://www.cbsnews.com/video/watch/?id=7403916n&tag=contentMain;contentBody, and BBCs segment (<12 minutes) of Horizon about the National Ignition Facilitys attempt to create a star on earth:  HYPERLINK "http://www.youtube.com/watch?v=DyB7Ho_W9RE" http://www.youtube.com/watch?v=DyB7Ho_W9RE. You can view a list of the videos available from the NIF here:  HYPERLINK "https://lasers.llnl.gov/multimedia/video_gallery/" https://lasers.llnl.gov/multimedia/video_gallery/ They include How NIF Works and Take a Ride on a Beamline, which shows in animation the path of the laser beams shot into the hohlraum, the fusion target . Here is a July 2012 NIF press release reporting on the 500 terawatt and 1.89 MJ shot from their bank of 192 lasers:  HYPERLINK "https://www.llnl.gov/news/newsreleases/2012/Jul/NR-12-07-01.html" https://www.llnl.gov/news/newsreleases/2012/Jul/NR-12-07-01.html. This Web page from the Chemistry Daily site contains a table of types of lasers, their lasing medium, their operating wavelength and applications for each:  HYPERLINK "http://www.chemistrydaily.com/chemistry/List_of_laser_types#Other_types_of_lasers" http://www.chemistrydaily.com/chemistry/List_of_laser_types#Other_types_of_lasers. More sites on semiconductors If you want to learn a bit more about semiconductors and their composition, visit  HYPERLINK "http://ece.utep.edu/courses/ee3329/ee3329/Studyguide/ToC/Fundamentals/Materials/structure.html" http://ece.utep.edu/courses/ee3329/ee3329/Studyguide/ToC/Fundamentals/Materials/structure.html. More sites on cancer PBSs NOVA series contains one entitled Cancer Warrior. This 54:32 video focuses on the life of Judah Folkman, originator of the term angiogenesis, and his 40-year search for clues to how cancer grows, and eventually for a cure for cancer. ( HYPERLINK "http://www.pbs.org/wgbh/nova/body/cancer-warrior.html" http://www.pbs.org/wgbh/nova/body/cancer-warrior.html) More sites on cancer treatment This Cancer News page is a technical overview of image-guided tumor ablation:  HYPERLINK "http://www.cancernews.com/data/Article/454.asp" http://www.cancernews.com/data/Article/454.asp. Although it does not discuss laser ablation, it yields similar results as the other methods highlighted. Before-and after ablation CT scans show its effectiveness. This Web page report from the American Journal of Neuroradiology describes in (medical) detail the process of actually performing interstitial photodynamic therapy (IPDT) needle laser ablation on a brain tumor. CT scans are included in the report. ( HYPERLINK "http://www.ajnr.org/content/26/5/1193.full" http://www.ajnr.org/content/26/5/1193.full) And here from MedScape is an April 20, 2011 interview with Dr. Walser, the doctor referenced in the Mayo Clinic article about laser ablation in the More on modes of treatment, above, about his pilot study:  HYPERLINK "http://www.medscape.com/viewarticle/741178" http://www.medscape.com/viewarticle/741178. And here is a video clip interview with Dr. Walser from Visualase, the company that makes the lasers: Mayo Clinic Finds Early Success with Laser that (Ablates) Tumors with Heat:  HYPERLINK "http://www.visualaseinc.com/2011/mayo-clinic-laser-destroys-tumors/" http://www.visualaseinc.com/2011/mayo-clinic-laser-destroys-tumors/. Another video clip that appears on the same site, after viewing the Walser clip, is one from a patient of Dr. Walsers who was very ill and who was successfully operated upon by Dr.Walser: A Hot Treatment to Kill Cancer: Laser Ablation. This study from Radiology reports on more than 100 patients who had osteoid osteomas and who had interstitial laser ablation (ILA) as did Chris in the ChemMatters article. The outcome was successful in 113 of the 114 patients treated. ( HYPERLINK "http://radiology.rsna.org/content/242/1/293.full" http://radiology.rsna.org/content/242/1/293.full) Not all cancer treatments are equal. This 2005 document from Australia rejects one doctors findings about the use of microwaves in treating cancer:  HYPERLINK "http://www.cancertreatmentwatch.org/reports/holt.shtml" http://www.cancertreatmentwatch.org/reports/holt.shtml. Note that this doesnt necessarily mean all microwave treatment of cancers is badjust this microwave treatment, and we dont know the details of this treatment. Microwave ablation seems to be an up-and-coming treatment for larger tumors (see below). This article from Science Daily discusses the use of and success rate with microwave ablation treatment for lung cancers:  HYPERLINK "http://www.sciencedaily.com/releases/2007/11/071129183821.htm" http://www.sciencedaily.com/releases/2007/11/071129183821.htm. Microwave treatment seems to work best for larger tumors, where laser treatment would take longer because the laser heats such small areas (but intensely) at one time, while the microwaves are not so focused. This site has a brief video animation clip that shows how ablation works on a patient and his tumor. They dont use laser ablation, but the process would be similar, except for the lack of focus on the area of the tumor to be ablated. A laser would be more focused, obviously. ( HYPERLINK "http://www.cancerablation.com/index.html" http://www.cancerablation.com/index.html)     PAGE  PAGE 34 (National Ignition Facility  HYPERLINK "https://lasers.llnl.gov/education/how_lasers_work.php" https://lasers.llnl.gov/education/how_lasers_work.php) In an inverted population an emitted photon from one atom approaches another atom in which there is an excited electron. Dropping electron The approaching photon stimulates the excited electron of the neighboring atom to drop. The second emitted photon heads off in the same directionmatching the first one crest for crest. The wavelengths match perfectly! Coherent light Excited electron of neighboring atom Emitted photon The energy level diagram for helium and neon in a He-Ne laser ( HYPERLINK "http://www.chemistrydaily.com/chemistry/Image:Hene-2.png" http://www.chemistrydaily.com/chemistry/Image:Hene-2.png) Microphotograph of cuts made in a human hair by an excimer laser (a demonstration of the precision attainable using this technique) ( HYPERLINK "http://www.defence.gov.au/health/infocentre/journals/ADFHJ_sep03/images/84-92_6.jpg" http://www.defence.gov.au/health/infocentre/journals/ADFHJ_sep03/images/84-92_6.jpg) The reference below can be found on the ChemMatters 25-year CD (which includes all articles published during the years 1983 through 2008). The CD is available from ACS for $30 (or a site/school license is available for $105) at this site:  HYPERLINK "http://www.acs.org/chemmatters" http://www.acs.org/chemmatters. (At the right of the screen, click on the ChemMatters CD image like the one at the right.) 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