Space Communications by the Use of Lasers: An Enumerative Bibliography
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[1] Optically Efficient Ruby Laser Pump , 1961 .
[2] J. Gordon,et al. Confocal multimode resonator for millimeter through optical wavelength masers , 1961 .
[3] M. J. Stevenson,et al. Solid-state optical maser using divalent samarium in calcium fluoride , 1961 .
[4] Optical and Cross Relaxation Maser Level Populations by Partial Distribution , 1962 .
[5] A. Schawlow,et al. Infrared and optical masers , 1958 .
[6] Arthur L. Schawlow,et al. Simultaneous Optical Maser Action in Two Ruby Satellite Lines , 1961 .
[7] F. McClung,et al. Giant Optical Pulsations from Ruby , 1962 .
[8] S. Sugano. Spectroscopy for Solid-State Optical Masers , 1962 .
[9] Observations Relating to the Transverse and Longitudinal Modes of a Ruby Laser , 1962 .
[10] R. N. SCHWARTZ,et al. Interstellar and Interplanetary Communication by Optical Masers , 1961, Nature.
[11] R. A. Smith. Amplification through stimulated emission - the Maser , 1961 .
[12] R. Olt. Synthetic Maser Ruby , 1962 .
[13] Henry Levinstein. Amplification by stimulated emission of radiation , 1961 .
[14] E. Snitzer. Optical Maser Action of Nd + 3 in a Barium Crown Glass , 1961 .
[15] Theodore Harold Maiman. Optical Maser Action in Ruby , 1961 .
[16] A. G. Fox,et al. Resonant modes in a maser interferometer , 1961 .
[17] W. L. Bond,et al. Stimulated Emission into Optical Whispering Modes of Spheres , 1961 .
[18] J. R. Singer. Quantum electronics: A report on the Second International Conference , 1962 .
[19] N. Bloembergen,et al. MICROWAVE MODULATION OF LIGHT IN PARAMAGNETIC CRYSTALS , 1960 .
[20] D. Wood,et al. Splitting of the Emission Lines of Ruby by an External Electric Field , 1961 .
[21] G. Dacey. Optical Masers in Science and Technology: Advances in the control of light waves give promise of important applications in science and technology. , 1962, Science.
[22] H. Cummins,et al. Thermal Tuning of Ruby Optical Maser , 1961 .
[23] C. C. Eaglesfield. Optical pipeline: a tentative assessment , 1962 .
[24] Power Output Characteristics of a Ruby Laser , 1961 .
[25] Threshold Conditions of Masers for Higher Frequencies , 1962 .
[26] C. K. Asawa,et al. Stimulated Optical Emission in Fluorescent Solids. II. Spectroscopy and Stimulated Emission in Ruby , 1961 .
[27] T. Maiman. Optical and Microwave-Optical Experiments in Ruby , 1960 .
[28] A. Siegman,et al. Photomixing Experiments with a Ruby Optical Maser and a Traveling-Wave Microwave Phototube , 1962 .
[29] Tingye Li,et al. A Calorimeter for Energy Measurements of Optical Masers , 1962 .
[30] A. Theodore Forrester,et al. Photoelectric Mixing As a Spectroscopic Tool , 1961 .
[31] D. Herriott,et al. Population Inversion and Continuous Optical Maser Oscillation in a Gas Discharge Containing a He-Ne Mixture , 1961 .
[32] Physical Optics of Coherent Radiation Systems , 1962 .
[33] Mode Control in Ruby Optical Masers by Means of Elastic Deformation , 1962 .
[34] M. Peter,et al. Effect of Configuration Mixing and Covalency on the Energy Spectrum of Ruby , 1961 .
[35] J. R. Singer,et al. A GENERAL ANALYSIS OF OPTICAL, INFRARED, AND MICROWAVE MASER OSCILLATOR EMISSION , 1961 .
[36] D. J. Morantz,et al. Stimulated Light Emission by Optical Pumping and by Energy Transfer in Organic Molecules , 1962 .
[37] William T. Ham,et al. OPTICAL MASERS (LASERS) * , 1963, Acta ophthalmologica. Supplementum.
[38] C. Peters,et al. Generation of optical harmonics , 1961 .
[39] A. Javan,et al. Frequency Characteristics of a Continuous-Wave He–Ne Optical Maser , 1962 .
[40] A Proposed Method for the Measurement of the Velocity of Light , 1959, Nature.
[41] Observation of Optical Maser Oscillation in Ruby , 1961 .
[42] W. Fonger,et al. INVESTIGATION OF CARRIER INJECTION ELECTROLUMINESCENCE , 1963 .
[43] Stephen F. Jacobs,et al. Continuous Optically Pumped Cs Laser , 1962 .
[44] S. Porto,et al. Ruby Optical Maser as a Raman Source , 1962 .
[45] Induced and Spontaneous Emission in a Coherent Field , 1958 .
[46] D. Kleinman. Laser and Two-Photon Processes , 1962 .
[47] G. Oster,et al. OBSERVATIONS OF RUBY-LASER BEAM-INTENSITY PATTERNS WITH DYE-SENSITIZED PHOTOPOLYMERS. , 1962, Proceedings of the National Academy of Sciences of the United States of America.
[48] R. Hellwarth. Theory of the Pulsation of Fluorescent Light From Ruby , 1961 .
[49] J. S. Courtney‐Pratt. Some Uses of Optical Masers in Photography , 1961 .
[50] High Efficiency Optical Maser Parameters , 1962 .
[51] Stephen F. Jacobs,et al. Coherent Light Amplification in Optically Pumped Cs Vapor , 1961 .
[52] C. Townes,et al. Mode Characteristics and Coherence in Optical Ruby Masers , 1961, Nature.
[53] W. Culshaw,et al. Resonators for Millimeter and Submillimeter Wavelengths , 1961 .
[54] K. Shimoda. Proposal for an Electron Accelerator Using an Optical Maser , 1962 .
[55] L R SOLON,et al. Ocular Lesions Produced by an Optical Maser (Laser) , 1961, Science.
[56] C. Garrett,et al. FLUORESCENCE AND OPTICAL MASER EFFECTS IN CaF$sub 2$: Sm$sup +$$sup +$ , 1961 .
[57] T. Maiman,et al. Stimulated Optical Emission in Fluorescent Solids. I. Theoretical Considerations , 1961 .
[58] Use of a Different Type of Fluorescent Material as an Optical Maser , 1961, Nature.
[59] William G. Wagner,et al. Theory of Quantum Oscillators in a Multimode Cavity , 1961 .
[60] Cecil B. Ellis,et al. Optical Masers in Space Navigation , 1961 .
[61] A Proposal for a Tunable Source of Radiation for the Far Infra-red using Beats between Optical Masers , 1961, Nature.
[62] H. Statz,et al. Probabilities for the Neon Laser Transitions , 1961 .
[63] R. Wuerker,et al. High-speed photographic study of the coherent radiation from a ruby laser , 1962 .
[64] A. Javan,et al. Possibility of Production of Negative Temperature in Gas Discharges , 1959 .
[65] L. Mandel,et al. Some Properties of Coherent Light , 1961 .
[66] J. Kotik,et al. Theory of LASER Oscillations in Fabry‐Perot Resonators , 1961 .
[67] On the Detection of Maser Signals by Photoelectric Mixing , 1962 .
[68] The Pulsed Ruby Maser as a Light Amplifier , 1961, Proceedings of the IRE.
[69] R. Dunsmuir. Theory of Relaxation Oscillations in Optical Masers , 1961 .
[70] N. G. Basov,et al. Generation, amplification, and detection of infrared and optical radiation by quantum-mechanical systems , 1961 .
[71] E. Snitzer,et al. Proposed Fiber Cavities for Optical Masers , 1961 .
[72] J. McKenna,et al. Composite Rod Optical Masers , 1962 .
[73] R. Collins,et al. Excitation, Relaxation, and Continuous Maser Action in the 2.613-Micron Transition of CaF2:U3+ , 1962 .
[74] D. Herriott. Optical Properties of a Continuous Helium-Neon Optical Maser* , 1962 .
[75] Spatial Coherence in the Output of an Optical Maser , 1961 .
[76] T. Maiman. Stimulated Optical Radiation in Ruby , 1960, Nature.
[77] D. J. Brangaccio,et al. Gaseous Optical Maser with External Concave Mirrors , 1962 .
[78] L. Mandel,et al. Photon Degeneracy in Light from Optical Maser and Other Sources , 1961 .
[79] G. D. Boyd,et al. Continuous Operation of a Solid-State Optical Maser , 1962 .
[80] A. Schawlow. Optical masers , 1961 .
[81] D. F. Nelson,et al. Coherence, Narrowing, Directionality, and Relaxation Oscillations in the Light Emission from Ruby , 1960 .
[82] Diffraction of Partially Coherent Light by a Plane Aperture , 1961 .
[83] Raphael Aronson,et al. Physiological Implications of Laser Beams The very high radiation flux densities of optical masers point to important biomedical applications , 1961 .
[84] H. Gerritsen. Recent Developments in Maser Devices and Materials , 1962 .
[85] L. Johnson,et al. Optical Maser Characteristics of Nd3+ in SrMoO4 , 1962 .
[86] G. Mayer,et al. Influence de divers procédés d'excitation optique sur les populations des niveaux d'énergie des ions Cr3+ du rubis , 1961 .
[87] On Diffraction Losses in Laser Interferometers , 1962 .
[88] D. J. Walsh,et al. The Interference between Beams from the Opposite Ends of a Ruby Optical Maser , 1962 .
[89] Optical Maser Design , 1959 .
[90] M. J. Keck,et al. Scattering Losses in Optical Maser Crystals , 1962 .
[91] Maurice Bernard,et al. Laser Conditions in Semiconductors , 1961, 1961.