Atomic hydrogen propellants: Historical perspectives and future possibilities
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[1] J. Pellam,et al. Phosphorescence of Atoms and Molecules of Solid Nitrogen at 4.2°K , 1954 .
[2] Collins,et al. Optical pulses in tritiated solid hydrogen. , 1990, Physical review. B, Condensed matter.
[3] G. V. Yperen,et al. State-Dependent Recombination and Suppressed Nuclear-Relaxation in Atomic-Hydrogen , 1982 .
[4] H. G. Poole. Atomic Hydrogen. I. The Calorimetry of Hydrogen Atoms , 1937 .
[5] Collins,et al. Triggered energy releases in solid hydrogen hosts containing unpaired atoms. , 1990, Physical review letters.
[6] Gerald Rosen,et al. Manufacture and Deflagration of an Atomic Hydrogen Propellant , 1974 .
[7] M. Aono. Has Japan begun to move toward atomic level material processing? , 1992, Science.
[8] V. Goldman,et al. Atomic-hydrogen in contact with a helium surface , 1980 .
[9] J. L. Jackson,et al. Free Radical Statistics , 1958 .
[10] Eugene B. Gordon,et al. Impurity-helium van der Waals crystals , 1989 .
[11] S. Golden. Free‐Radical Stabilization in Condensed Phases , 1958 .
[12] Collins,et al. Atomic-hydrogen concentrations in solid D-T and T2. , 1992, Physical review. B, Condensed matter.
[13] Gaines,et al. Ortho-to-para conversion in solid tritium. I. Theoretical models. , 1988, Physical Review B (Condensed Matter).
[14] Drexler Ke,et al. Molecular engineering: An approach to the development of general capabilities for molecular manipulation. , 1981, Proceedings of the National Academy of Sciences of the United States of America.
[15] D. A. Bell,et al. Observation of three-body recombination in spin-polarized hydrogen , 1983 .
[16] J. Powell,et al. Solitary-Wave Propagation in the Three-Dimensional Lattice. , 1979 .
[17] R. D. McCarty,et al. Selected Properties of Hydrogen (Engineering Design Data) , 1981 .
[18] J. Walraven,et al. Measurement of Pressure of Gaseous H-Down - Adsorption Energies and Surface Recombination Rates on Helium , 1981 .
[19] A. Houghton,et al. Approximate renormalization group calculation of cubic crossover , 1977 .
[20] Brisson,et al. Magnetic-field dependence of resonance recombination in spin-polarized atomic hydrogen. , 1988, Physical review. B, Condensed matter.
[21] David Alan Drabold,et al. Dipolar broadening in magnetically diluted lattices. , 1988, Physical review. B, Condensed matter.
[22] W. Hardy,et al. Magnetic-Resonance Studies of Gaseous Atomic Hydrogen Confined at 1 K and Zero Magnetic Field , 1980 .
[24] G. Rosen. Relaxation times for nonlinear heat conduction in solid H 2 , 1981 .
[25] R. Sprik,et al. Compression of Spin-Polarized Hydrogen to High-Density , 1983 .
[26] R. Webeler. Behavior of atomic H in solid H2 from 0.2 to 0.8 K , 1976 .
[27] K. Kim,et al. Spherical hydrogen pellet generator for magnetic confinement fusion research , 1981 .
[28] I. Silvera. The solid molecular hydrogens in the condensed phase: Fundamentals and static properties , 1980 .
[29] M. Hawley,et al. Microwave plasma generation of hydrogen atoms for rocket propulsion , 1981 .
[30] Daniel W. Brown,et al. Atoms and Free Radicals by Gamma Irradiation at 4.2°K , 1959 .
[31] T. Shaw. Dissociation of Hydrogen in a Microwave Discharge , 1959 .
[32] C. E. Hawkins,et al. Free radical propulsion concept , 1981 .
[33] C. A. Foster,et al. Solid hydrogen pellet injection into the ORMAK Tokamak , 1977 .
[34] J. Walraven,et al. Magnetic Equation of State of a Gas of Spin-Polarized Atomic-Hydrogen , 1980 .
[35] Sanford Gordon,et al. Computer program for calculation of complex chemical equilibrium compositions , 1972 .
[36] Gerald Rosen,et al. Nonlinear heat conduction in solid H 2 , 1979 .
[37] Fritz Zwicky. Chemical Kinetics and Jet Propulsion , 1950 .
[38] J. L. Jackson. Dynamic Stability of Frozen Radicals. I. Description and Application of the Model , 1959 .
[39] G. Rosen. Stability of the equilibrium for atomic H in solid H2 , 1977 .
[40] J. Kunc,et al. Radiation of hot atomic hydrogen , 1989 .
[41] A. J. Berlinsky,et al. Theory of Spin Relaxation and Recombination in Spin-Polarized Atomic Hydrogen , 1980 .
[42] Terry L. Hardy. FLUSH: A tool for the design of slush hydrogen flow systems , 1990 .
[43] R. Pound,et al. MAGNETIC RESONANCE STUDIES OF UNPAIRED ATOMS IN SOLID D$sub 2$ , 1963 .
[44] V. Vinetskiǐ,et al. The kinetics of formation and the parameters of radiation defect clusters in silicon , 1976 .
[45] J. Walraven,et al. Spin-Polarized Atomic Deuterium: Stabilization, Limitations on Density, and Adsorption Energy on Helium , 1980 .
[46] A. Bass,et al. Formation and Trapping of Free Radicals , 1960 .
[47] A. Scherer,et al. Vertical-cavity surface-emitting lasers: Design, growth, fabrication, characterization , 1991 .
[48] Michael Thierschmann. SSTO applications based on super high energy propulsion systems , 1989 .
[49] H. G. Poole. Atomic hydrogen II—surface effects in the discharge tube , 1937 .
[50] J. M. Wadehra,et al. Dissociative attachment and vibrational excitation in low-energy collisions of electrons with H2 and D2 , 1979 .
[51] H. G. Poole. Atomic hydrogen III—The energy efficiency of atom production in a glow discharge , 1937 .
[52] J. Walraven,et al. Stabilization of Atomic Hydrogen at Low Temperature , 1980 .
[53] R. Hess. Atomic Hydrogen Stabilization by High Magnetic Fields and Low Temperatures , 1973 .