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21	Studies of stimulated emission of radiation Cole, J. B. January 1970 (has links) No description available.
22	Ultraviolet laser sources for photoelectron microscopy Plummer, Brian P. 09 1900 (has links) (PDF) M.S. / Applied Physics / A noble gas ion laser with strong transitions in the 196-225 nm wavelength region has been developed for use as an illuminator in a photoelectron microscope. The laser is pulsed, and it can be operated at repetition rates up to 200 Hz to produce average output powers up to 5.0 mW at 219 nm. This is comparable to the output of the brightest available incoherent source, a Hg-Xe-Cd arc lamp that produces 2.6 mW of usable light in the 221-226 nm range. The laser has the advantage that it can be focused to produce much higher intensities than the arc lamp, and less total power is necessary. But the pulsed laser has a low duty cycle (~ 10[superscript minus 5]), and the corresponding peak powers (~ 300 watts) result in a space-charge-limited resolution of approximately 500 Å when the laser illuminates a phthalocyanine target. The magnitude of this aberration is proportional to beam current. Consequently, the resolution o can be improved to about 50 Å by decreasing the input power, or increasing the duty cycle, by a factor of 100-1000. Techniques for achieving such an improvement are suggested.
23	A. FLUCTUATION PHENOMENA IN QUANTUM OPTICS B. THE CONSTRUCTION OF A CARBON-DIOXIDE TEA LASER Chow, W. W. (Weng W.), 1948- January 1975 (has links) No description available. Quantum optics. Quantum electrodynamics. Gas lasers.
24	Studies of rare gas halide lasers Hogan, Daniel Christopher January 1983 (has links) This thesis presents the results of a study of the mechanisms responsible for limiting the laser pulse duration obtainable in xenon chloride lasers which are excited by UV-preionized, self-sustained gas discharges. The xenon chloride laser system, the principal emission band of which is centred around 308 nm, belongs to the class of high pressure gas lasers known as 'rare-gas halides'(RGH). RGH lasers are now well known for their high peak power output at a number of wavelengths from 193 nm to 353 nm in the ultraviolet region of the spectrum. To date, however, they have only been operated in the pulsed mode with laser pulse durations of <sup>~</sup>1000 ns for devices employing electron beam excitation and <sup>~</sup>30 ns for devices employing transverse discharge excitation. There is no a priori kinetic limitation which prevents RGH lasers from operating in the CW mode, and an attempt to extend the duration of the laser pulse would enable the quality of laser output to be improved. The laser pulse duration of a discharge excited XeCl<sup>*</sup> laser was extended by about one order of magnitude - to 270 ns FWHM - by the use of a distributed resistance electrode to stabilize the discharge. The typical gas mixture used in the laser was ~2 atm of Ne (buffer gas), ~25 mbar of Xe, and 2.5 mbar of HC1. However, the laser pulse duration obtained was considerably shorter than the 500 ns duration, 2000 A peak current, discharge excitation pulse. The cause of this difference between the duration of the laser output pulse and the discharge current pulse was found by carrying out a comprehensive parametric study of the laser, combined with a detailed spectroscopic analysis and the results of a semi-empirical computer model. Two interrelated factors were identified as being responsible for the short duration of the laser output: namely, a temporal collapse of the discharge volume and a spatially non-uniform depletion of the HCl within this volume. The experimental results presented here contradict an earlier theory which ascribed the onset of discharge instabilities in RGH lasers to step-wise ionization of the minority rare gas atoms, and which attributed stability enhancement properties to the electronegative halogen gases used in RGH lasers. 621.36
25	Application of convection heat transfer in near-wall jets to electron-beam-pumped gas lasers Lu, Bo 07 July 2010 (has links) Heating of the transmission foil separating the vacuum diodes from the laser cell in electron-beam-pumped gas lasers due to electron beam attenuation necessitates an active cooling scheme to prevent its failure under repetitively pulsed operating conditions. Attenuation of the electron beam (typically 500kV, 100kA and 100ns) produces a strong and pulsed volumetric heat source in the relatively thin (~25μm thick) stainless-steel foil causing it to fail. An experimental and numerical investigation has been conducted to study the cooling effectiveness of high-speed near-wall jets for a single stainless-steel foil strip simulating the geometry between two hibachi ribs in the Electra KrF gas laser developed by the Naval Research Laboratory. The foil is placed inside a channel with continuous gas flow simulating the circulating laser gas. Detailed studies include two jet types (planar and circular) and two injection methods (parallel and impinging) for two designs of hibachi (flat and scalloped). The planar jet flows parallel to the circulating laser gas along the entire foil span. The other configuration uses small diameter (0.8, 1.2 and 1.6 mm) circular jets positioned in two staggered rows located on the foil's two edges along the height of the foil (~30 cm). The jets are issued obliquely towards the foil. For both jet configurations, experiments are conducted at different jet velocities, impingement angles and jet-foil spacing to identify the optimal parameters to be used in the actual hibachi foil cooling. Experimental results are also compared to the predictions from CFD simulations using FLUENT®. The results of this research show that near-wall impinging circular jets can effectively cool the foil separating the vacuum diodes from the laser cell in an electron beam pumped KrF laser under prototypical pulsed (5Hz) operating conditions, thereby assuring the foil's survival, while minimizing the impact on electron beam quality and laser efficiency. Heat transfer enhancement Impinging jet Tangential planar jet Electron-beam-pumped gas lasers Inertial confinement fusion Gas lasers Cooling Heat Transmission Jets
26	Development and optimisation of a solid-state pulsed power supply for a CO₂ TEA laser Stehmann, Timo 12 1900 (has links) Thesis (MSc)--Stellenbosch University, 2003. / ENGLISH ABSTRACT: With technological advances in solid-state switches the modernization of conventional pulsed power supplies utilizing thyratrons has become possible. A novel pulsed power supply is designed where two series-stacked IGBTs (rated at 1700 V and 300 A each) are used to replace a thryatrondriven pulsed power supply for a mini CO2 TEA laser. The mini CO2 TEA laser is firstly characterized in order to optimize the design of the pulsed power supply. It is found that stable laser discharges can be obtained with electrode voltage rise-times of 150 ns or less. Furthermore, the optical output energy and the efficiency of the laser have been significantly increased by reducing the peaking capacitor size of the pulsed power supply. The two stacked IGBTs switch a C-C transfer loop and the generated pulse is stepped up by a pulse transformer and is compressed by a two-stage magnetic pulse compression unit. Theoretically and through measurements it is shown that automatic voltage sharing between the two IGBTs can be obtained if the turn-on time of the IGBTs is much faster than the transfer time of the switched C-C transfer loop. Lifetime tests reveal that high-power IGBTs are able to reliably switch pulses with peak currents between 4 and 5 times the rated average current of the device. Under laser fault conditions, i.e. laser arcing or missing laser discharges, the reliability of the pulser can be increased by using over-voltage snubbers. In addition, it was found that the internal diode of IGBT modules can eventually fail under the prevalence of laser fault conditions. A modular construction approach is used where components of the pulsed power supply are preassembled. A new rectangular layout of the magnetic pulse compression unit is utilized in order to minimize size and simplify the final construction and assembly. / AFRIKAANSE OPSOMMING: Nuwe ontwikkeling in vastetoestand-skakelaars het die modernisering van laser-pulskragbronne moontlik gemaak. ’n Nuwe kragbron wat gebruik maak van twee seriegeskakelde IGBT’s is ontwerp om ’n Tiratron-gedrewe laserkragbron te vervang, wat vir ’n mini-C02-TEA-laser gebruik word. Die laser is vooraf eers gekarakteriseer om sodoende die laserkragbron te optimeer. Daar is bevind dat stabiele laserontladings verkry kan word met spanningstygtye van 150 ns of minder. Verder kan die uittree-energie van die laser beduidend verhoog word deur die uittreekapasitore (eng.: peaking capacitors) van die laserkragbron te verminder. Die twee serie-geskakelde IGBT’s skakel ’n C-C oordraglus. Die spanning van die gegenereerde puls word deur ’n pulstransformator verhoog en die stygtyd van die puls word met ’n twee-stadium magnetiese pulskompressor verlaag. Teoreties en deur metings kan getoon word dat eweredige spanningsverdeling tussen die twee IGBT’s outomaties verkry kan word indien die skakeltye van die IGBT’s baie vinniger as die oordragstyd van die C-C oordraglus is. Toetse het getoon dat IGBT’s pulse met piekstrome van tussen vier tot vyf keer die gespesifiseerde gemiddelde stroom betroubaar kan skakel. Tydens laserfouttoestande kan die betroubaarheid van die IGBT verhoog word deur oorspanningsgapsers te gebruik, maar onder fouttoestande wat voortduur, kan die IGBT se interne diode vemietig word. Die komponente van die laserkragbron is as modules vervaardig, wat op ’n maklike wyse gemonteer kan word. ’n Nuwe reghoekige uitleg is gebruik vir die konstruksie van die magnetiese pulskompressor, waarmee die grootte van die pulskompressor geminimeer en die konstruksie vergemaklik is. Pulsed power systems Gas lasers Transverse excited atmospheric lasers Dissertations -- Physics Theses -- Physics
27	Realizing a mid-infrared optically pumped molecular gas laser inside hollow-core photonic crystal fiber Jones, Andrew Michael January 1900 (has links) Doctor of Philosophy / Department of Physics / Kristan L. Corwin / This research has focused on the development, demonstration, and characterization of a new type of laser based on optically-pumped gases contained within hollow optical fibers. These novel lasers are appealing for a variety of applications including frequency metrology in the mid-infrared, free-space communications and imaging, and defense applications. Furthermore, because of the hollow core fibers used, this technology may provide the means to surpass the theoretical limits of output power available from high power solid-core fiber laser systems. Gas-filled hollow-core fiber lasers based on population inversion from acetylene ([superscript]12C[subscript]2H[subscript]2) and hydrogen cyanide (HCN) gas contained within the core of a kagome-structured hollow-core photonic crystal fiber have now been demonstrated. The gases are optically pumped via first order rotational-vibrational overtones near 1.5 μm using 1-ns duration pulses from a home-built optical parametric amplifier. Narrow-band laser emission peaks in the 3-μm region corresponding to the ΔJ = ±1 dipole allowed rotational transitions between the pumped vibrational overtone modes and the fundamental C-H stretching modes have been observed in both molecules. High gain resulting from tight confinement of the pump and laser light together with the active gas permits these lasers to operate in a single pass configuration, without the use of any external resonator structure. Studies of the generated mid-infrared pulse energy, threshold energy, and slope efficiency as functions of the launched pump pulse energy and gas pressure have been performed and show an optimum condition where the maximum laser pulse energy is achieved for a given fiber length. The laser pulse shape and the laser-to-pump pulse delay have been observed to change with varying pump pulse energy and gas pressure, resulting from the necessary population inversion being created in the gases at a specific fiber length dependent on the launched pulse energy. Work is on going to demonstrate the first continuous wave version of the laser which may be used to produce a single coherent output from many mutually incoherent pump sources. Molecular gas lasers Mid-infrared lasers Fiber lasers Photonic Crystal Fiber Optics (0752)
28	Energy absorption and vibrational heating in molecules following intense laser excitation. McNair, Ronald Erwin January 1977 (has links) Thesis. 1977. Ph.D.--Massachusetts Institute of Technology. Dept. of Physics. / Microfiche copy available in Archives and Science. / Includes bibliographical references. / Ph.D. Physics Energy transfer Optical pumping Gas lasers Hydrofluoric acid Vibrational spectra
29	Laser e diagnostico de caries: estado da arte e avaliacao in vitro das diferencas de fluorescencia entre esmalte sadio, cariado e desmineralizado MENDONCA, MARIA A.L.C. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:46:03Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:05:30Z (GMT). No. of bitstreams: 1 07494.pdf: 2575009 bytes, checksum: ef57996bcc391004d1ab919499f11556 (MD5) / Dissertacao (Mestrado Profissionalizante em Lasers em Odontologia) / IPEN/D-MPLO / Instituto de Pesquisas Energeticas e Nucleares, IPEN/CNEN-SP; Faculdade de Odontologia, Universidade de Sao Paulo dentistry lasers diagnostic uses teeth enamels caries diagnosis fluorescence in vitro gas lasers argon fluorescence spectroscopy
30	Medidas do coeficiente de multiplicacao gasosa no isobutano puro / Measurements of gaseous multiplication coefficient in pure isobutene LIMA, IARA B. de 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:27:31Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:08:09Z (GMT). No. of bitstreams: 0 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP / FAPESP:07/06773-0 2-METHYLPROPANE GAS LASERS IONIZATION CHAMBERS NITROGEN TOWNSEND DISCHARGE ELECTRIC FIELDS SIMULATION I CODES

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