Gotowe bibliografie tematyczne / ELECTRON LASER

Spis treści

  1. Artykuły w czasopismach
  2. Rozprawy doktorskie
  3. Książki
  4. Części książek
  5. Streszczenia konferencji
  6. Raporty organizacyjne

Gotowa bibliografia na temat „ELECTRON LASER”

Autor: Grafiati
Data publikacji: 11 września 2023
Data aktualizacji: 31 lipca 2025

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Artykuły w czasopismach na temat "ELECTRON LASER"

1

Prasad, Vinod, Rinku Sharma, and Man Mohan. "Laser Assisted Electron - Alkali Atom Collisions." Australian Journal of Physics 49, no. 6 (1996): 1109. http://dx.doi.org/10.1071/ph961109.

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Lasar assisted inelastic scattering of electrons by alkali atoms is studied theoretically. The non-perturbative quasi-energy method, which is generalised for many atomic states, is used to describe the laser–atom interaction, and the electron–atom interaction is treated within the first Born approximation. We have calculated the total cross section for the excitation of sodium atoms due to simultaneous electron–photon collisions. We show the effect of laser and collision parameters, e.g. laser intensity, polarisation and incident electron energy, on the excitation process.
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Huang, Kai, Zhan Jin, Nobuhiko Nakanii, Tomonao Hosokai, and Masaki Kando. "Experimental demonstration of 7-femtosecond electron timing fluctuation in laser wakefield acceleration." Applied Physics Express 15, no. 3 (2022): 036001. http://dx.doi.org/10.35848/1882-0786/ac5237.

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Abstract We report on an experimental investigation of the jitter of electrons from laser wakefield acceleration. The relative arrival timings of the generated electron bunches were detected via electro-optic spatial decoding on the coherent transition radiation emitted when the electrons pass through a 100 μm thick stainless steel foil. The standard deviation of electron timing was measured to be 7 fs at a position outside the plasma. Preliminary analysis suggested that the electron bunches might have durations of a few tens of femtoseconds. This research demonstrated the potential of laser w
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MIZUNO, Koji, Kunioki MIMA, and Shoichi ONO. "Tunable lasers. Free electron laser." Review of Laser Engineering 17, no. 11 (1989): 749–58. http://dx.doi.org/10.2184/lsj.17.11_749.

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Joachain, C. J. "Laser-Assisted Electron-Atom Collisions." Laser Chemistry 11, no. 3-4 (1991): 273–77. http://dx.doi.org/10.1155/lc.11.273.

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The theoretical methods which have been developed to analyze laser-assisted electron-atom collisions are reviewed. Firstly, the scattering of an electron by a potential in the presence of a laser field is considered. The analysis is then generalized to laser-assisted collisions of electrons with “real” atoms having an internal structure. Two methods are discussed: a semi-perturbative approach suitable for fast incident electrons and a fully non-perturbative theory—the R-matrix-Floquet method—which is applicable to the case of slow incident electrons. In particular it is shown how the dressing
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Shukla, Padma Kant, and Bengt Eliasson. "Localization of intense electromagnetic waves in plasmas." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 366, no. 1871 (2008): 1757–69. http://dx.doi.org/10.1098/rsta.2007.2184.

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We present theoretical and numerical studies of the interaction between relativistically intense laser light and a two-temperature plasma consisting of one relativistically hot and one cold component of electrons. Such plasmas are frequently encountered in intense laser–plasma experiments where collisionless heating via Raman instabilities leads to a high-energetic tail in the electron distribution function. The electromagnetic waves (EMWs) are governed by the Maxwell equations, and the plasma is governed by the relativistic Vlasov and hydrodynamic equations. Owing to the interaction between t
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SAKAI, KEI, SHUJI MIYAZAKI, SHIGEO KAWATA, SHOTARO HASUMI, and TAKASHI KIKUCHI. "High-energy-density attosecond electron beam production by intense short-pulse laser with a plasma separator." Laser and Particle Beams 24, no. 2 (2006): 321–27. http://dx.doi.org/10.1017/s026303460606040x.

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An attosecond electron beam generation is studied by an intense short-pulse TEM (1,0) + TEM (0,1)-mode laser with a plasma separator in vacuum. The TEM (1,0) + TEM (0,1)-mode laser has a ring-shaped intensity peak in the radial direction. Electrons are accelerated and compressed near the focus point of the TEM (1,0) + TEM (0,1)-mode laser. However, after the focus point, some electrons move to its deceleration phase of the laser pulse and are decelerated. As a result, a longitudinal velocity deference of electrons generated causes a density lowering. In order to suppress the deceleration and t
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Xiang, Ran, Xin Yu Tan, and Hui Li Wei. "Influence of Electron-Phonon Coupling Coefficient on Properties in Femtosecond Laser Ablation." Materials Science Forum 814 (March 2015): 144–49. http://dx.doi.org/10.4028/www.scientific.net/msf.814.144.

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Thermodynamics effects generated by femtosecond laser ablation are very important. In this work, the numerical simulation of high-energy femtosecond laser ablation especially the electro-phonon coupling coefficient influence of high-energy femtosecond laser ablation on metal target was studied. A new two-temperature model (TTM) which considered the effects of electron density of states (DOS) on electron-phonon coupling coefficient was first established, then the temperature evolvement for electron and lattice in different electro-phonon coupling coefficient G, and the effect of G on electron t
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Singh, K. P., D. N. Gupta, and V. Sajal. "Electron energy enhancement by a circularly polarized laser pulse in vacuum." Laser and Particle Beams 27, no. 4 (2009): 635–42. http://dx.doi.org/10.1017/s0263034609990474.

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AbstractEnergy enhancement by a circularly polarized laser pulse during acceleration of the electrons by a Gaussian laser pulse has been investigated. The electrons close to the temporal peak of the laser pulse show strong initial phase dependence for a linearly polarized laser pulse. The energy gained by the electrons close to the rising edge of the pulse does not show initial phase dependence for either linearly- or circularly-polarized laser pulse. The maximum energy of the electrons gets enhanced for a circularly polarized in comparison to a linearly polarized laser pulse due to axial symm
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Parmigiani, Fulvio, and Daniel Ratner. "Seeded Free-Electron Lasers and Free-Electron Laser Applications." Synchrotron Radiation News 29, no. 3 (2016): 2–3. http://dx.doi.org/10.1080/08940886.2016.1174035.

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Melikian, Robert. "Acceleration of electrons by high intensity laser radiation in a magnetic field." Laser and Particle Beams 32, no. 2 (2014): 205–10. http://dx.doi.org/10.1017/s026303461300092x.

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AbstractWe consider the acceleration of electrons in vacuum by means of the circularly-polirized electromagnetic wave, propagating along a magnetic field. We show that the electron energy growth, when using ultra-short and ultra-intense laser pulses (1 ps, 1018 W/cm2, CO2 laser) in the presence of a magnetic field, may reach up to the value 2,1 GeV. The growth of the electron energy is shown to increase proportionally with the increase of the laser intensity and the initial energy of the electron. We find that for some direction of polarization of the wave, the acceleration of electrons does n
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Rozprawy doktorskie na temat "ELECTRON LASER"

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Bajlekov, Svetoslav. "Towards a free-electron laser driven by electrons from a laser-wakefield accelerator : simulations and bunch diagnostics." Thesis, University of Oxford, 2011. http://ora.ox.ac.uk/objects/uuid:99f9f13a-d0c2-4dd8-a9a4-13926621c352.

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This thesis presents results from two strands of work towards realizing a free-electron laser (FEL) driven by electron bunches generated by a laser-wakefield accelerator (LWFA). The first strand focuses on selecting operating parameters for such a light source, on the basis of currently achievable bunch parameters as well as near-term projections. The viability of LWFA-driven incoherent undulator sources producing nanojoule-level pulses of femtosecond duration at wavelengths of 5 nm and 0.5 nm is demonstrated. A study on the prospective operation of an FEL at 32 nm is carried out, on the basis
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Restivo, Rick A. "Free electron laser weapons and electron beam transport." Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 1997. http://handle.dtic.mil/100.2/ADA333358.

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Stetler, Aaron M. "Active vibration control for free electron lasers." Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 2003. http://library.nps.navy.mil/uhtbin/hyperion-image/03Dec%5FStetler.pdf.

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Thesis (M.S. in Applied Physics)--Naval Postgraduate School, December 2003.<br>Thesis advisor(s): Bruce C. Denardo, Thomas J. Hofler. Includes bibliographical references (p. 81). Also available online.
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Dearden, Geoffrey. "An industrial free electron laser." Thesis, University of Liverpool, 1993. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.240478.

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Petichakis, Christos. "The Cerenkov free electron laser." Thesis, University of Liverpool, 2003. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.399079.

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This thesis reports on an investigation into Cerenkov Free Electron Lasers. These devices are basically travelling wave tubes but having a dielectrically lined cylinder as the slow wave structure rather than a helix. If an electron beam is injected into the centre of this structure, an interaction between the electrons and the electromagnetic (e-m) TMo I mode can occur which can lead to amplification of the e-m wave. Two different systems have been constructed. The first one was designed to operate as an oscillator at 12.4GHz and used a rectangular X-band waveguide microwave coupler. It was th
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Evtushenko, Pavel. "Electron beam diagnostic at the ELBE free electron laser." Doctoral thesis, [S.l.] : [s.n.], 2004. http://deposit.ddb.de/cgi-bin/dokserv?idn=972779876.

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Evtushenko, P. "Electron Beam Diagnostic at the ELBE Free Electron Laser." Forschungszentrum Dresden, 2010. http://nbn-resolving.de/urn:nbn:de:bsz:d120-qucosa-28802.

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Evtushenko, P. "Electron Beam Diagnostic at the ELBE Free Electron Laser." Forschungszentrum Rossendorf, 2004. https://hzdr.qucosa.de/id/qucosa%3A21707.

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Mitchell, Ethan D. "Multiple beam directors for naval free electron laser weapons." Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 2004. http://library.nps.navy.mil/uhtbin/hyperion/04Mar%5FMitchell.pdf.

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Massey, Daniel S. "Simulation of DARMSTADT Free Electron Laser and a comparison of high gain Free Electron Laser." Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 2000. http://handle.dtic.mil/100.2/ADA387394.

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Książki na temat "ELECTRON LASER"

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Dattoli, G. Free-electron laser theory. CERN, 1989.

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Schmid, Karl. Laser Wakefield Electron Acceleration. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-19950-9.

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Restivo, Rick A. Free electron laser weapons and electron beam transport. Naval Postgraduate School, 1997.

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Kassel, Simon. Soviet free-electron laser research. Rand Corp., 1985.

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Massey, Daniel S. Simulation of DARMSTADT Free Electron Laser and a comparison of high gain Free Electron Laser. Naval Postgraduate School, 2000.

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N, Rykalin N., ed. Laser and electron beam material processing: Handbook. Mir Publishers, 1988.

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Short, Lee R. Damage produced by the free electron laser. Naval Postgraduate School, 1999.

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V, Fedorov M. Interaction of intense laser light with free electrons. Harwood Academic Publishers, 1991.

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Buskirk, Fred Ramon. Radiation produced by the modulated electron beam of a free electron laser. Naval Postgraduate School, 1986.

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International Free Electron Laser Conference (14th 1992 Kobe, Japan). Free electron lasers: Proceedings of the fourteenth International Free Electron Laser Conference, Kobe, Japan, August 23-28, 1992. Edited by Yamanaka Chiyoe 1923- and Mima K. North-Holland, 1993.

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Części książek na temat "ELECTRON LASER"

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Kneubühl, Fritz Kurt, and Markus Werner Sigrist. "Free-Electron-Laser." In Laser. Vieweg+Teubner Verlag, 1999. http://dx.doi.org/10.1007/978-3-322-93875-6_18.

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Kneubühl, Fritz Kurt, and Markus Werner Sigrist. "Free-Electron Laser." In Laser. Vieweg+Teubner Verlag, 1989. http://dx.doi.org/10.1007/978-3-322-91806-2_18.

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Kneubühl, Fritz Kurt, and Markus Werner Sigrist. "Free-Electron Laser." In Laser. Vieweg+Teubner Verlag, 1989. http://dx.doi.org/10.1007/978-3-663-01450-8_18.

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Schächter, Levi. "Free-Electron Laser." In Particle Acceleration and Detection. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-19848-9_7.

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Renk, Karl F. "Free-Electron Laser." In Basics of Laser Physics. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-23565-8_19.

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Sigrist, Markus Werner. "Free-Electron-Laser." In Laser: Theorie, Typen und Anwendungen. Springer Berlin Heidelberg, 2018. http://dx.doi.org/10.1007/978-3-662-57515-4_18.

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Kneubühl, Fritz Kurt, and Markus Werner Sigrist. "Free-Electron-Laser." In Teubner Studienbücher Physik. Vieweg+Teubner Verlag, 2005. http://dx.doi.org/10.1007/978-3-322-99688-6_18.

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Renk, Karl F. "Free-Electron Laser." In Basics of Laser Physics. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-50651-7_19.

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Schächter, Levi. "Free-Electron Laser." In Beam-Wave Interaction in Periodic and Quasi-Periodic Structures. Springer Berlin Heidelberg, 1997. http://dx.doi.org/10.1007/978-3-662-03398-2_7.

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Benderskii, V. A., and A. V. Benderskii. "Electron transfer reactions." In Laser Electrochemistry of Intermediates. CRC Press, 2024. https://doi.org/10.1201/9781003574125-3.

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Streszczenia konferencji na temat "ELECTRON LASER"

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Zhang, Jiaming, Ken Morita, Verdad C. Agulto, Kosaku Kato, and Makoto Nakajima. "Electron Dynamics of Ultrafast Vector Vortex Laser Irradiation." In JSAP-Optica Joint Symposia. Optica Publishing Group, 2024. https://doi.org/10.1364/jsapo.2024.19p_c43_6.

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The dynamical effects of lasers have garnered widespread attention, holding significant research value in fields such as optical tweezers (optical trapping), laser processing, and photonic nanojets [1,2]. Studies related to optical dynamical effects primarily focus on dielectric materials [3,4]. On the other hand, research on interactions between optical light and single-charged electrons is mainly focused on the conduction electron excitations in the semiconductors involving the quantum transitions, leaving their dynamics insufficiently explored. Recently, we reported an experiment using ultr
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Cryan, James. "Probing Ultrafast Electron Dynamics with Attosecond X-ray Free Electron Lasers." In Laser Science. Optica Publishing Group, 2023. https://doi.org/10.1364/ls.2023.lm6f.1.

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Free Electron Lasers (FELs) are a source of intense ultrashort x-ray pulses. Recent efforts across several facilities seeks to provide isolated, sub-femtosecond pulses. This enables time-resolved measurements of electron dynamics on their natural timescale.
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Brandão, Vitória M. C., Nilson D. Vieira junior, and Ricardo E. Samad. "Development of an Electron Spectrometer for Laser-Accelerated Electrons." In Frontiers in Optics. Optica Publishing Group, 2024. https://doi.org/10.1364/fio.2024.jtu5a.40.

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Huang, Guanhao. "Room-Temperature Quantum Optomechanics and Free-Electron Quantum Optics." In Laser Science. Optica Publishing Group, 2024. https://doi.org/10.1364/ls.2024.lm1f.2.

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We discuss experimental observation of quantum optical effects in two experiments: the first demonstrations of room-temperature quantum optomechanics with a macroscopic solid-state mechanical object, and free electron-photon non-classical correlation mediated by photonic integrated circuits.
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Poteomkin, A. K., M. A. Martyanov, E. I. Gacheva, I. V. Kuzmin, and S. Yu Mironov. "Laser driver for electron photoinjector." In 2024 International Conference Laser Optics (ICLO). IEEE, 2024. http://dx.doi.org/10.1109/iclo59702.2024.10624482.

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Melissinos, A. C. "Laser Electron Interactions at Critical Field Strength." In International Conference on Ultrafast Phenomena. Optica Publishing Group, 1996. http://dx.doi.org/10.1364/up.1996.wa.1.

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The electric field in the focus of an ultrafast laser pulse of sufficient energy can reach extremely high values; for I = 1019 W/cm2, Erms=Z0I∼6×1010V/cm. When a high energy electron traverses the laser focus, it experiences in its own rest-frame a field E * = 2γErms where γ = ε/mc2 is the Lorentz factor of the electron [ε is the energy and mc2 the rest mass of the electron]. In the present experiment, electrons from the Stanford Linear Accelerator collided with a frequency doubled pulse from a Nd:glass laser system.
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Bamber, C., S. Boege, T. Koffas, et al. "Observation of nonlinear laser-electron and laser-photon scattering." In Applications of High Field and Short Wavelength Sources. Optica Publishing Group, 1997. http://dx.doi.org/10.1364/hfsw.1997.fc2.

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Nonlinear laser-electron and laser-photon scattering has been observed during the interaction of an intense laser with 46.6 GeV electrons in the Final Focus Test Beam at SLAC. Nonlinear laser-electron and laser-photon scattering is characterized by two dimensionless parameters.1-3
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Meyer, Neal, Kunyan Zhu, Fang Fang, and David S. Weiss. "An Electron Electric Dipole Moment with Atoms in Optical Lattices." In Laser Science. OSA, 2008. http://dx.doi.org/10.1364/ls.2008.ltud2.

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Lee, J., J. Chen, and A. E. Leanhardt. "Continuous Supersonic Beams for an Electron Electric Dipole Moment Search." In Laser Science. OSA, 2010. http://dx.doi.org/10.1364/ls.2010.lthg5.

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KEEFER, DENNIS, AHAD SEDGHINASAB, NEWTON WRIGHT, and QUAN ZHANG. "Laser propulsion using free electron lasers." In 21st International Electric Propulsion Conference. American Institute of Aeronautics and Astronautics, 1990. http://dx.doi.org/10.2514/6.1990-2636.

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Raporty organizacyjne na temat "ELECTRON LASER"

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Smith, Todd. Free Electron Laser Program. Defense Technical Information Center, 1994. http://dx.doi.org/10.21236/ada285906.

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Colson, W. B. Free Electron Laser Theory. Defense Technical Information Center, 1986. http://dx.doi.org/10.21236/ada172996.

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Matthews, J. L. Biomedical Free Electron Laser Studies. Defense Technical Information Center, 1988. http://dx.doi.org/10.21236/ada199122.

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Cowan, T., T. Ditmire, and G. LeSage. Intense Laser - Electron Beam Interactions. Office of Scientific and Technical Information (OSTI), 2000. http://dx.doi.org/10.2172/802605.

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Elias, Luis R. A Submillimeter Free Electron Laser. Defense Technical Information Center, 1985. http://dx.doi.org/10.21236/ada221738.

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Lumpkin, A. H., D. W. Rule, LaBerge M. LaBerge M., and M. C. Downer. Observations on Microbunching of Electrons in Laser-Driven Plasma Accelerators and Free-Electron Lasers. Office of Scientific and Technical Information (OSTI), 2019. http://dx.doi.org/10.2172/1596020.

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Chen, Pisin. ELECTRON TRAJECTORIES IN INTENSE LASER PULSES. Office of Scientific and Technical Information (OSTI), 1999. http://dx.doi.org/10.2172/12473.

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Garrison, Barbara J., and Leonid V. Zhigilei. Modeling of Free Electron Laser Ablation. Defense Technical Information Center, 2002. http://dx.doi.org/10.21236/ada407589.

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Smith, Todd. Infra-Red Free Electron Laser Facility. Defense Technical Information Center, 1994. http://dx.doi.org/10.21236/ada286256.

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McGinnis, R. D., R. W. Thomson, L. R. Short, P. A. Herbert, and D. Lampiris. Free Electron Laser Material Damage Studies. Defense Technical Information Center, 2000. http://dx.doi.org/10.21236/ada389509.

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