Jean-Paul Richard
Department of Physics, University of Maryland

Publications in refereed scientific journals

POSSIBILTE DE VERIFICATION DE LA RELATIVITE GENERALE A L'AIDE DE SATELLITES ARTIFICIELS TERRESTRES, Jean-Paul Richard, Cahiers de Physique, Tome 20, Nos. 187-188, p.85-155 (1966),

VARIATION DE L'INCLINAISON DE L'ORBITE D'UN SATELLITE TERRESTRE PREVUE PAR LA RELATIVITE GENERALE, Jean-Paul Richard, C.R. Acad. Sc. Paris, Tome 260, p. 2139-2141 (22 Fevrier 1965).

SUR LES POSSIBILITIES DE MESURES DE DECALAGE DE FREQUENCE PAR L'EMPLOI DE SATELLITES, Jean-Paul Richard, C.R. Acad. Sc. Paris, Tome 260, p. 4151-4154 (12 Avril 1965).

HIGH ORDER FREQUENCY SHIFT MEASUREMENT AND GENERAL RELATIVITY, Jean-Paul Richard, Nature, Vol. 212, No. 5062, p. 601-62 (5 November 1966).

SOLAR OBLATENESS AND MOON PRECESSION, Jean-Paul Richard, Icarus 7, 274 (1967).

PROPOGATION OF A PHOTON IN A STATIC FIELD AND IN THE FIELD OF THE SUN ACCORDING TO GENERAL RELATIVITY, Jean-Paul Richard, Il Nuovo Cimento 56B, 1 (1968).

PULSAR FREQUENCIES AND GENERAL RELATIVITY, Jean-Paul Richard, Phys. Rev. Lett. 21, 1483 (1968).

SEPARATION OF RELATIVITY EFFECTS AND EFFECTS DUE TO A QUADRUPOLE MOMENT OF THE SUN IN THE "TIME DELAY" MEASUREMENTS, Jean-Paul Richard, Phys. Rev. D2, 2743 (December 1970).

BEST FIT ESTIMATE OF RELATIVISTIC EFFECTS IN TIME DELAY EXPERIMENTS, Jean-Paul Richard, Phys. Rev. D 6, 961-966 (August 1972).

NOISE MEASUREMENTS OF GRAVITATIONAL RADIATION ANTENNA AT LIQUID-NITROGEN TEMPERATURES, W.S. Davis, D. Gretz, J.-P. Richard, G. Rydbeck and J. Weber, Lett. Il Nuovo Cimento, 16, 199 (1976).

SENSOR & SUSPENSIONS FOR A LOW TEMPERATURE GRAVITATIONAL WAVE ANTENNA, Jean-Paul Richard, Rev. of Sci. Inst. 47, 423 (1976).

OBSERVATION OF WELL-BEHAVED NOISE AND FLUCTUATIONS IN A GRAVITATIONAl RADIATION ANTENNA AT LIQUID-HELIUM TEMPERATURES, W.S. Davis and J.-P. Richard, Phys. Rev. D 22, 2297 (1980).

QUALITY FACTORS OF A THREE-MODE 50-KG GRAVITATIONAL RADIATION ANTENNA AT LIQUID HELIUM TEMPERATURE, C. Cosmelli and J.-P. Richard, Rev. Sci. Instrum. 53, 674(1982).

WIDE-BAND BAR DETECTORS OF GRAVITATIONAL RADIATION, Jean-Paul Richard, Phys. Rev. Lett. 52, 165 (1984).

SENSITIVITY OF A 1200-KG THREE-MODE GRAVITATIONAL RADIATION DETECTOR INSTRUMENTED WITH A CLARKE OR IBM DC SQUID, Jean-Paul Richard, J. Appl. Phys. 60, 3807 (1986).

VERY HIGH-VACUUM HEAT TREATMENT FACILITY, W.M. Folkner, M.V. Moody and J.-P. Richard, Rev. Sci. Instr. 58, 2288 (1987).

LASER INSTRUMENTATION FOR ONE-PHONON SENSITIVITY AND WIDE BANDWIDTH WITH MULTI-MODE GRAVITATIONAL RADIATION DETECTORS, Jean-Paul Richard, J. Appl. Phys. 64, 2202(1988).

MEASUREMENT OF A HIGH ELECTRICAL QUALITY FACTOR IN A NIOBIUM RESONATOR FOR A GRAVITATIONAL RADIATION DETECTOR W.M. Folkner, M.V. Moody and J.-P.Richard, J. Appl. Phys.65, 887 (1989).

INSTRUMENTATION OF A RESONANT GRAVITATIONAL RADIATION DETECTOR WITH AN IBM DC SQUID, W.M. Folkner, M.V. Moody, J.-P. Richard, K. R. Carroll and C.D. Tesche, J. Appl. Phys. 65, 5190 (1989).

FABRY-PEROT OPTICAL RESONATOR AT LOW TEMPERATURES, J.-P. Richard, J. Hamilton and Yi Pang, J. Low Temp. Phys. 81,189 (1990).

MOUNTING AND QUALITY FACTOR OF A SENSOR FOR A GRAVITATIONAL RADIATION BAR DETECTOR"., J.-P. Richard, Yi. Pang and J.J. Hamilton, Rev. Scient. Instru. 61, 2702 (1990).

HIGH FINESSE MEASUREMENTS AT LOW TEMPERATURES, J.-P. Richard and J.J. Hamilton, Applied Optics 30, 3560 (1991).

CRYOGENIC MONOCRYSTALLINE SILICON FABRY-PEROT CAVITY FOR THE STABILIZATION OF LASER FREQUENCY. J.-P. Richard and J.J. Hamilton, Rev. of Sci. Instrum. 62, 2375 (1991).

OPTICAL MOTION SENSOR FOR RESONANT BAR GRAVITTIONAL WAVE ANTENNAS, J.-P. Richard, Yi. Pang and J.J. Hamilton, Applied Optics 31, 1641 (1992).

MEASUREMENT OF ENERGY TRANSFER IN A FIVE-MODE GRAVITATIONAL WAVE BAR DETECTOR, Yi. Pang and J.-P. Richard, Rev. of Sci. Instrum. 63, 56 (1992)

FREQUENCY NOISE INDUCED BY FIBER PERTURBATIONS IN A FIBER-LINKED STABILIZED LASER. Yi Pang, J.J. Hamilton and J.-P. Richard, Applied Optics 31, 7532 (1992).

APPROACHING THE QUANTUM LIMIT WITH OPTICALLY INSTRUMENTED MULTI-MODE GRAVITATIONAL WAVE BAR DETECTORS. Jean-Paul Richard, Phys. Rev. D 46, 2309-2317 (1992).

OUTPUT BEAM INTENSITY NOISE INDUCED BY FIBER PERTURBATIONS IN A FIBER-LINKED LASER. J.J. Hamilton, Yi Pang and J.-P. Richard, Applied Optics 32, 4913 (1993).

ROOM TEMPERATURE TEST OF AN OPTICAL TRANSDUCER FOR RESONANT GRAVITATIONAL WAVE DETECTORS, Yi Pang and J.-P. Richard. Applied Optics 34, 4982 (1995).