ATOMIC AND MOLECULAR FREQUENCY STANDARDS

Index to the proceedings of the Precise Time And Time Interval (PTTI) systems and applications (formerly applications and planning) meeting

The entry for each paper is preceded by a hyphenated numerical code indicating its subject, Proceedings volume number, and page number therein, i.e, 06-02-129 represents subject category "6", Proceedings volume number "2" and page number "129". The following index covers the PTTI Proceedings from the 2nd (1970) through the 41st (2009).

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06-02-129	Requirements and Performance for Today's Atomic Standards; G. M. R. Winkler
06-03-225	Atomic Standards Test and Evaluation; E. Hafner
06-03-367	Hydrogen Masers and Other Standards; H. E. Peters
06-04-029	Performance of the New Efratom Optically Pumped Rubidium Frequency Standards and Their Possible Application in Space Relativity Experiments; C. 0. Alley, R. Williams, S. Gurbax, and J. Mullendore
06-04-046	Precision Frequency Sources; A. 0. McCoubrey and R. H. Kern
06-04-055	NASA Hydrogen Maser Accuracy and Stability in Relation to World Standards; H. E. Peters and D. B. Percival (corrected for errata)
06-04-168	Operational Stability of Rubidium and Cesium Frequency Standards; J. E. Lavery
06-05-239	Statistical Properties of High Performance Cesium Standards; D. B. Percival
06-05-265	Flexible Bulb - Large Storage Box Hydrogen Maser; V. Reinhardt
06-05-283	Characteristics of Advanced Hydrogen Maser Frequency Standards; H. E. Peters
06-06-059	A Review of Precision Oscillators; H. Hellwig
06-07-125	Radiation Effects in Crystal and Atomic Frequency Standards; T. M. Flanagan and R. E. Leadon
06-07-143	A Portable Rubidium Clock for Precision Time Transport; H. Hellwig and A. E. Wainwright
06-07-165	Performance and Operation of the NRC Primary Cesium Clock, CsV; A. G. Mungall, H. Daams, D. Morris, and C. C. Costain
06-07-195	The Millman Effect in Cesium Beam Atomic Frequency Standards; A. G. Mungall
06-07-215	A New Method for Generating Overtone Frequencies in a Quartz Oscillating Circuit; H. Bahadur and R. Parshad
06-07-231	Demonstration of the Frequency Offset Errors Introduced by an Incorrect Setting of the Zeeman/Magnetic Field Adjustment on the Cesium Beam Frequency Standard; D. C. Kaufmann
06-07-243	A Study of Hydrogen Maser Resonators and Storage Bulbs for Use in Ground and Satellite Masers; E. M. Mattison, R. F. C. Vessot, and M. W. Levine
06-07-265	Frequency Stability Requirements for Two-Way Range Rate Tracking; V. Reinhardt
06-07-671	Spaceborne Rubidium Frequency Standard for Navstar GPS; D. E. Ringer, J. Gandy, and E. Jechart
06-08-003	The Hydrogen Maser Program for Navstar Gps; R. L. Easton
06-08-183	The Atomic Hydrogen Maser; N. F. Ramsey
06-08-197	Field Operable Hydrogen Maser Design; V. S. Reinhardt, H. E. Peters, and L. A. Birnbaum
06-08-213	Hydrogen Maser Frequency Standards for the Deep Space Network; P. R. Dachel, R. F. Meyer, S. M. Petty, and R. L. Sydnor
06-08-229	Hydrogen Maser Design at the Laboratoire de l'Horloge Atomique; P. Petit, J. Viennet, R. Barillet, M. Desaintfuscien, and C. Audoin
06-08-249	A Hydrogen Maser Design for Ground Applications; M. W. Levine, R. F. C. Vessot, E. M. Mattison, E. Blomberg, T. E. Hoffman, G. Nystrom, D. F. Graveline, R. L. Nicoll, C. Dovidio, and W. Brymer
06-08-277	Space-borne Hydrogen Maser Design; R. F. C. Vessot, M. W. Levine, E. M. Mattison, T. E. Hoffman, E. A. Imbier, M. Tetu, and G. Nystrom
06-08-335	Variable Volume Maser Techniques; V. S. Reinhardt
06-08-351	Problems in Hydrogen Maser Design and Suggested Improvements; S. B. Crampton, H. T. M. Wang, and J. L. Barrett
06-08-355	New Te111-mode Hydrogen Maser; E. M. Mattison, M. W. Levine, and R. F. C. Vessot
06-08-369	Design and Results From a Prototype Passive Hydrogen Maser Frequency Standard; F. L. Walls
06-08-399	A Comparison of Various Hydrogen-Maser Frequency Standards; A. E. E. Rogers, A. R. Whitney, and L. B. Hanson
06-08-429	Special Purpose Atomic (Molecular) Standard; D. J. Wineland, D. A. Howe, and H. Hellwig
06-08-637	NTS-2 Cesium Beam Frequency Standard for GPS; J. White, F. Danzy, S. Falvey, A. Frank, and J. Marshall
06-08-681	Performance of a Dual Beam High Performance Cesium Beam Tube; G. A. Seavey
06-08-695	Application of High Performance Cesium Beam Frequency Standards to VLBI; W. J. Klepczynski
06-09-009	Atomic Frequency Standards: Survey and Forecast; J. Vanier
06-09-059	Criteria for the Selection of Atomic Clocks in Systems Application (abstract); G. M. R. Winkler
06-09-343	Some Recent Progress in Frequency Standards and Techniques; D. W. Allan, R. M. Garvey, H. Hellwig, D. A. Howe, S. Jarvis, A. Risley, S. R. Stein, H. Van de Stadt, F. L. Walls, and D. J. Wineland
06-09-353	Analysis of Degraded Hydrogen Dissociator Envelopes by AES+; V. H. Ritz, V. M. Bermudeg, and V. J. Folen
06-09-371	An Investigation of Polymer Coatings Used in Hydrogen Maser Storage Bulbs; N. H. Turner
06-09-381	An Investigation of the Shielding Properties of Molypermalloy Shields Designed for Use with a Hydrogen Maser; S. Wolf and J. Cox
06-09-403	A Spaceborne Hydrogen Maser Design; A. E. Popa, H. T. M. Wang, W. B. Bridges, J. E. Etter, D. Schnelker, F. E. Goodwin, C. Lew, and M. Dials
06-09-415	Operational Characteristics of a Prototype Spaceborne Hydrogen Maser; H. T. M. Wang, A. E. Popa, W. B. Bridges, and D. Schnelker
06-09-437	Development of an Atomic Rubidium Vapor Frequency Standard At NPL of India Using Indigenous Sources; V. R. Singh, G. M. Saxena, and B. S. Mathur
06-09-549	Comparison of Theoretical and Observed Maser Stability Limitation Due to Thermal Noise and the Prospect of Improvement by Low Temperature Operation; R. F. C. Vessot, M. W. Levine, and E. M. Mattison
06-09-571	A New Method to Eliminate Cavity Phase in Cesium Beam Standards; D. J. Wineland, S. Jarvis, Jr., H. Hellwig, and R. M. Garvey
06-10-131	Shielding of Longitudinal Magnetic Fields with Thin, Closely, Spaced, Concentric Cylindrical Shells with Applications to Atomic Clocks; S. A. Wolf, D. U. Gubser, and J. E. Cox
06-10-147	Elimination of the Light Shift in Rubidium Gas Cell Frequency Standards Using Pulsed Optical Pumping; T. C. English, E. Jechart, and T. M. Kwon
06-10-169	Performance of Preproduction Model Cesium Beam Frequency Standards for Spacecraft Applications; M. W. Levine
06-10-195	Discussion Forum: Atomic Frequency Standards--Cesium, Rubidium, and Hydrogen; C. C. Costain, T. C. English, and H. Peters
06-11-081	Limitations on Long-Term Stability and Accuracy in Atomic Clocks; D. J. Wineland
06-11-113	The Performance of Primary Cs Beam Clocks Using Quadrupole and Hexapole Deflection Systems Consequences for Time Keeping; G. Becker
06-11-197	Hydrogen Maser Implementation in the Deep Space Network at the Jet Propulsion Laboratory; P. F. Kuhnle
06-11-619	Prospects for Advances in Microwave Atomic Frequency Standards; F. L. Walls
06-12-211	Frequency and Time Generation and Control; M. B. Bloch
06-12-275	Innovation and Reliability of Atomic Standards for PTTI Applications; R. Kern
06-12-291	Contractor Point of View for System Development and Test Program; F. K. Koide, D. E. Ringer, and C. E. Earl
06-12-463	Recent Progress in the NASA-Goddard Space Flight Center Atomic Hydrogen Standards Program; V. S. Reinhardt
06-12-495	Passive Maser Development At NRL; J. White, A. Frank, and V. Folen
06-12-581	Vacuum Pumping System for Spaceborn Passive Hydrogen Masers; S. A. Wolf, D. U. Gubser and L. D. Jones
06-12-615	The Operational Performance of Hydrogen Masers in the Deep Space Network; S. C. Ward
06-12-719	Development of a Sub-miniature Rubidium Oscillator for Seektalk Application; H. Fruehauf, W. Weidemann, and E. Jechart
06-12-785	Precision Timekeeping Using a Small Passive Hydrogen Maser; F. L. Walls and D. A. Howe
06-12-807	Progress Report on Hydrogen Maser Development At Laval University; J. Vanier, G. Racine, R. Kunski, and M. Picard
06-13-167	A History and Analysis of Hydrogen Maser Reliability; J. B. Curtright
06-13-451	Long Term Frequency Stability Analysis of the GPS Navstar 6 Cesium Clock; T. B. McCaskill, S. Stebbins, C. Carson, and J. Buisson
06-13-547	Cryogenic Masers; A. J. Berlinsky and W. N. Hardy
06-13-563	A Trapped Mercury 199 Ion Frequency Standard; L. S. Cutler, R. P. Giffard, and M. D. McGuire
06-13-579	Prospects for Stored Ion Frequency Standards; D. J. Wineland
06-13-593	Recent Developments and Proposed Schemes for Trapped Ion Frequency Standards; L. Maleki
06-13-609	A Rubidium Clock for GPS; W. J. Riley
06-13-631	Investigations of Laser Pumped Gas Cell Atomic Frequency Standard; C. H. Volk, J. C. Comparo, and R. P. Frueholz
06-13-645	Magnetic State Selection in Atomic Frequency and Time Standards; H. E. Peters
06-13-667	Frequency Stability of Maser Oscillators Operated with Enhanced Cavity Q; M. Tetu, P. Tremblay, P. Lesage, P. Petit, and C. Audoin
06-13-729	The Role of the Deep Space Network's Frequency and Timing System in the Detection of Gravitational Waves; J. C. Mankins
06-13-767	Lamp Reliability Studies for Improved Satellite Rubidium Frequency Standard; R. P. Frueholz, M. Wun-fogle, H. U. Eckert, C. H. Volk and P. F. Jones
06-13-791	Magnetic Shielding and Vacuum Test for Passive Hydrogen Masers; D. U. Gubser, S. A. Wolf, A. B. Jacoby, and L. D. Jones
06-13-803	Composite-Type Rb-87 Optical-Pumping Light Source for the Rubidium Frequency Standard; N. Oura, N. Kuramochi, S. Naritsuka, and T. Hayashi
06-14-087	Influence of Modulation Frequency in Rubidium Cell Frequency Standards; C. Audoin, J. Viennet, N. Cyr, and J. Vanier
06-14-113	Laser Induced Asymmetry and Inhomogeneous Broadening of the Microwave Lineshape of a Gas Cell Atomic Frequency Standard; J. C. Camparo, R. P. Frueholz, and C. H. Volk
06-14-133	Study of Multiple Optical Transitions in Rb-87 Using Laser Diodes; C. L. J. Newton and H. G. Robinson
06-14-141	A Rubidium Clock for Seek-Talk; W. J. Riley
06-14-205	High-Accuracy Global Time and Frequency Transfer with a Space-borne Hydrogen Maser Clock; R. Decher, D. W. Allan, C. O. Alley, C. Baugher, B. J. Duncan, R. F. C. Vessot, and G. M. R. Winkler
06-14-307	Narrow Rb-87 and Cs-133 Hyperfine Transitions in Evacuated Wall-Coated Cells; H. G. Robinson and C. E. Johnson
06-14-315	Cesium Standard for Satellite Application; M. Bloch, M. Meirs, I. Pascaru, and B. Weinstein
06-14-359	Evaluation of Modern Hydrogen Masers; A. Kirk, P. Kuhnle, and R. Sydnor
06-14-393	First Experiences with the H-Maser EFOS 1; W. Schluter, K. Nottarp, D. Feil, and G. Busca
06-14-409	A Commercial Hydrogen Maser, Progress Report; M. Dials and L. Wert
06-14-421	The NASA/GSFC Hydrogen Maser Program: A Review of Recent Data; M. Chiu, A. G. Bates, L. J. Rueger, V. S. Reinhardt, P. Dachel, R. Kunski, R. Kruger, and S. C. Wardrip
06-14-547	Radiation Hardness of Efratom M-100 Rubidium Frequency Standard; T. C. English, H. Vorwerk, and N. J. Rudie
06-14-621	New Auto-Tuning Technique for the Hydrogen Maser; R. L. Sydnor and L. Maleki
06-15-171	On-Orbit Frequency Stability Analysis of the GPS Navstar's 3 and 4 Rubidium Clocks and Navstar's 5 and 6 Cesium Clocks; T. B. McCaskill, J. A. Buisson, and S. B. Stebbins
06-15-269	Test Results for Prototype GPS Rubidium Clocks; T. J. Lynch and W. J. Riley
06-15-283	International Time Transfer and Portable Clock Evaluation Using GPS Timing Receivers: Preliminary Results; S. C. Wardrip, J. Buisson, O. J. Oaks, M. Lister, E. Detoma, P. Dachel, T. Stalder, H. Warren, G. Winkler, G. Luther, S. Leschiutta, P. G. Galliano, F. Cordara, V. Pettiti, R. Azzarone, and F. Fedele
06-15-653	Recent Results on the Performance of EFOS, NP, and NX Hydrogen Masers; V. Reinhardt, J. Ingold, T. Stalder, M. Saifi, P. Dachel, and S. C. Wardrip
06-15-677	Physics Element Design Aspects for a Tactical Rubidium Frequency Standard; B. Grover and T. M. Kwon
06-15-723	The Superconducting Cavity Stabilized Ruby Maser Oscillator; G. J. Dick and D. M. Strayer
06-16-001	Prospects for Atomic Frequency Standards; C. Audoin
06-16-049	Frequency and Time Standards Based on Stored Ions; J. J. Bollinger, D. J. Wineland, W. M. Itano, J. C. Bergquist, and J. D. Prestage
06-16-059	On the Accuracy of Cs Beam Primary Frequency Standards; J. S. Boulanger, R. J. Douglas, J. Vanier, A. G. Mungall, Y. S. Li, and C. Jacques
06-16-081	Methods to Recover the Narrow Dicke Sub-Doppler Feature in Evacuated Wall-Coated Cells without Restrictions on Cell Size; H. G. Robinson
06-16-091	Diode Laser 87Rb Optical Pumping in an Evacuated Wall-Coated Cell; W. K. Lee, H. G. Robinson, and C. E. Johnson
06-16-103	On-Orbit Frequency Stability Analysis of the GPS Navstar-1 Quartz Clock and the Navstars-6 and -8 Rubidium Clocks; T. B. McCaskill, J. A. Buisson, M. M. Largay, and W. G. Reid
06-16-127	Rubidium and Cesium Frequency Standards - Status and Performance on the GPS Program; H. Bethke, D. Ringer, and M. Van Melle
06-16-143	A Miniature Tactical Rb Frequency Standard; T. M. Kwon, R. Dagle, W. Debley, H. Dellamano, T. Hahn, J. Horste, L. K. Lam, R. Magnuson, and T. McClelland
06-16-157	The Rubidium-Crystal Oscillator Hybrid Development Program; J. Vig and V. Rosati
06-16-191	The System Design of a Rubidium Maser Frequency Standard; X. Cheng-Xi
06-16-295	Development of Hydrogen Masers for K-3 VLBI System; T. Morikawa, Y. Ohta, and H. Kiuchi
06-16-313	Atomic Hydrogen Maser Active Oscillator Cavity and Bulb Design Optimization; H. E. Peters and P. J. Washburn
06-16-339	Hydrogen Maser Oscillation at 10 K; S. B. Crampton, K. M. Jones, G. Nunes, and S. P. Souza
06-16-351	A Low Noise Synthesizer for Autotuning and Performance Testing of Hydrogen Masers; J. M. Cloeren and J. S. Ingold
06-16-357	Atomic Hydrogen Maser Measurements with Wall Surfaces of Carbon Tetrafluoride; R. F. C. Vessot, E. M. Mattison, E. A. Imbier, and Z. C. Zhai
06-16-375	Performance Data of U.S. Naval Observatory VLG-11 Hydrogen Masers Since September 1983; R. F. C. Vessot, E. M. Mattison, E. A. Imbier, Z. C. Zhai, W. J. Klepczynski, P. J. Wheeler, A. J. Kubik, and G. M. R. Winkler
06-17-001	The First Atomic Clock Program: NBS, 1947-1954; P. Foreman
06-17-073	A Review of Atomic Frequency Standards; S. R. Stein and L. L. Lewis
06-17-105	Hydrogen Maser Research and Development at Sigma Tau Standards and Tests of Sigma Tau Masers at the U.S. Naval Research Laboratory; G. A. Gifford, J. D. White, and H. E. Peters
06-17-129	Fast Autotuning of a Hydrogen Maser by Cavity Q Modulation; G. J. Dick and T. K. Tucker
06-17-145	Further Test Results for Prototype GPS Rubidium Clocks; S. Goldberg, T. J. Lynch, and W. J. Riley
06-17-157	Exploration of the Potential Performance of Diode Laser Pumped Gas Cell Atomic Frequency Standards; J. C. Camparo and R. P. Frueholz
06-17-173	Characterization of an All-Cryogenic Oscillator as a Stable Frequency Source; D. M. Strayer, G. J. Dick, and J. E. Mercereau
06-17-189	Cesium Beam Primary Frequency Standards at NRC; R. J. Douglas and J. S. Boulanger
06-17-375	Test Results of a Portable Battery Pack's Effect on the Output of a Cesium Beam Frequency Standard; B. Elson
06-17-413	Results of Two Years of Hydrogen Maser Clock Operation at the U.S. Naval Observatory and Ongoing Research at the Harvard-Smithsonian Center for Astrophysics; R. F. C. Vessot, E. M. Mattison, W. J. Klepczynski, I. F. Silvera, H. P. Godfried, and R. L. Walsworth, Jr.
06-18-037	GPS Clock Technology and Navy PTTI Programs at the U.S. Naval Research Laboratory; R. L. Beard, J. Murray, and J. D. White
06-18-055	Precision Time and Frequency Sources and Systems Research and Development at the Johns Hopkins University Applied Physics Laboratory; A. G. Bates, M. T. Boies, M. C. Chiu, R. Kunski, and J. J. Suter
06-18-071	Frequency Standards Work and Timekeeping at the National Research Council of Canada; J. S. Boulanger, C. C. Costain, R. J. Douglas, C. Jacques, D. Morris, P. Tremblay, and J. Vanier
06-18-089	A Review of the Frequency and Timing Activities at the Jet Propulsion Laboratory; L. Maleki and P. F. Kuhnle
06-18-113	National Physics Laboratory, U.K. Time and Frequency Report, 1986; P. B. Coates, J. E. Gibbs, D. J. E. Knight, D. S. Sutcliffe, and B. R. Swabey
06-18-155	Activities on Time and Frequency at Shanghai Observatory; Z. Zaocheng, Z. Qixiang, H. Jinlin, and K. Wunwei
06-18-165	Research Activities on Time and Frequency at the Radio Research Laboratory; N. Imai, S. Kobayashi, K. Yoshimura, and K. Nakagiri
06-18-227	Rubidium and Cesium Frequency Standards Status and Performance on the GPS Program; M. Van Melle
06-18-321	A New Technique for the On-Orbit Characterization of Cesium Beam Tube Performance; S. K. Karuza, J. P. Hurrell, and W. A. Johnson
06-18-503	Beam Optics of the RRL Cesium Beam Primary Frequency Standard; K. Nakagiri, H. Okazawa, and S. Urabe
06-18-559	Frequency Stability in a Wall-Coated Evacuated Cell: Preliminary Results; C. Rahman and H. G. Robinson
06-18-565	A Partial Analysis of Drift in the Rubidium Gas Cell Atomic Frequency Standard; J. C. Camparo
06-18-601	The Superconducting Cavity Maser Oscillator--toward Higher Stability; D. M. Strayer and G. J. Dick
06-18-611	A Subcompact Q-Enhanced Active Hydrogen Maser; R. R. Hayes and H. T. M. Wang
06-18-621	A Signal Processing Scheme for Reducing the Cavity Pulling Factor in Passive Hydrogen Masers; K. M. Uglow
06-18-631	Integral Cavity Hydrogen Maser; R. Kunski
06-19-107	Single State Selection System for Hydrogen Masers; E. M. Mattison and R. F. C. Vessot
06-19-113	Triply-Redundant Precision Time and Frequency Standard; D. Silvermetz, M. Bloch, and M. Meirs
06-19-133	Local Oscillator Induced Instabilities in Trapped Ion Frequency Standards; G. J. Dick
06-19-175	The Effects of Ambient Conditions on Cesium Clock Rates; L. A. Breakiron
06-19-195	Analysis of the Seasonal Effects on a Cesium Clock to Improve the Long-Term Stability of a Time Scale; E. Bava, F. Cordara, V. Pettiti, and P. Tavella
06-19-235	Atomic Transit Time and Delayed Ionization Effects on Cesium Beam Frequency Standards; B. Jaduszliwer
06-19-245	The Optically Pumped Cs Frequency Standard at the NRLM; S. Ohshima, Y. Nakadan, and Y. Koga
06-19-255	Alkali Reactions with Wall Coating Materials Used in Atomic Resonance Cells; J. C. Camparo, R. Frueholz, and B. Jaduszliwer
06-19-267	Stability Test Results for GPS Rubidium Clocks; F. Danzy and W. J. Riley (see Errata Volume)
06-19-275	Design and Performance of a Compact Passive Hydrogen Maser; L. L. Lewis, T. E. Smith, and S. R. Stein
06-19-285	The JPL Trapped Ion Frequency Standard Development; J. D. Prestage, G. L. Dick, and L. Maleki
06-19-345	Portable Hydrogen Maser Clock Time Transfer at the Subnanosecond Level; L. J. Rueger, M. C. Chiu, S. D. Deines, R. A. Nelson, J. T. Broomfield, and C. O. Alley (see Errata Volume)
06-19-375	A Study in Long-Term Stability of Atomic Clocks; D. W. Allan (see Errata Volume)
06-20-041	A First Account of Long-Term Stability Results Obtained on Various Cesium Standards by the Power Sensitivity Minimization Technique; A. De Marchi
06-20-087	Orbit Period Frequency Variations in the GPS Satellite Clocks; E. R. Swift and B. R. Hermann
06-20-111	Design Considerations and Performance of a GPS Spaceborne Hydrogen Maser Frequency Standard; E. S. Richter, B. A. Bettencourt, H. T. Wang, and R. R. Hayes
06-20-123	Reduction of Cavity Pulling in a Passive Hydrogen Maser; V. M. Golding, V. J. Folen, A. F. Frank, J. D. White, and R. L. Beard
06-20-287	Velocity Distribution Measurement of an Optically Pumped Cesium Frequency Standard at the NRLM; Y. Nakadan, S. Ohshima, T. Ikegami, and Y. Koga
06-20-305	New Ion Trap for Frequency Standard Applications; J. D. Prestage, G. L. Dick, and L. Maleki
06-20-313	Time and Temperature Stability of Silver-Coated Ceramics for Hydrogen Maser Resonant Cavities; E. M. Mattison and R. F. C. Vessot
06-20-325	Operating and Environmental Characteristics of Sigma Tau Hydrogen Masers Used in the Very Long Baseline Array; T. K. Tucker
06-20-337	Atomic Hydrogen Masers with Self Auto-Tune System and Magnetic Field Cancellation Servo; H. E. Peters, H. B. Owings, and P. A. Koppang
06-20-345	Operational Parameters for the Superconducting Cavity Maser; G. J. Dick, R. T. Wang, and D. M. Strayer
06-21-145	GPS Synchronized Disciplined Rubidium Frequency Standard; D. E. Fossler
06-21-149	A GPS Disciplined Rubidium Clock; W. Dewey
06-21-191	A New Hydrogen Maser Time and Frequency Standard at Sheshan VLBI Station of Shanghai Observatory; Z. C. Zhai, H. X. Huang, C. F. Lin, G. X. Jiang, W. H. Luo, and J. F. Lu
06-21-223	Atomic Velocity Distribution Out of Hydrogen Maser Dissociators; B. Jaduszliwer and Y. C. Chan
06-21-239	On-Orbit Frequency Stability Analysis of GPS Navstar Cesium and Rubidium Clocks; T. B. McCaskill, J. A. Buisson, and T. J. Hogan
06-21-313	New Hydrogen Masers at the National Research Council of Canada; D. Morris and J. Vanier
06-21-359	The Cryogenic Hydrogen Maser Projected Performance and Recent Progress Toward Spaceborne Applications; R. L. Walsworth, I. F. Silvera, R. F. C. Vessot, E. Mattison, and M. L. Dingus
06-21-385	Determining Optimum C-field Settings That Minimize Output Frequency Variations in Cesium Atomic Frequency Standards; S. K. Karuza, W. A. Johnson, J. P. Hurrell, and F. J. Voit
06-21-401	Modeling Fast Modulation Effects in Cesium Atomic Clocks; P. Hurrell, W. A. Johnson, S. K Karuza, and F. J. Voit
06-21-409	Environmental Tests of Cesium Beam Frequency Standards at the Frequency Standards Laboratory of the Jet Propulsion Laboratory; R. L. Sydnor, T. K. Tucker, G. A. Greenhall, W. A. Diener, and L. Maleki
06-21-431	Reliability Studies of Lamp Cells for Use in Rubidium Vapor Frequency Standards; T. McClelland
06-21-433	Analysis of Fundamental and Systematic Effects Limiting Hydrogen Maser Frequency Stability; E. M. Mattison and R. F. C. Vessot
06-22-001	The Past, Present and Future of Atomic Time; N. F. Ramsey
06-22-009	The Classical Microwave Frequency Standards; G. Busca, P. Thomann, L.-G. Bernier, P. Willemin, and H. Schweda
06-22-019	The Status of Cesium Beam Frequency Standards; L. S. Cutler
06-22-029	State of the Art and Future Directions for the Atomic Hydrogen Maser; R. F. C. Vessot
06-22-053	Trapped-Ion Frequency Standards; D. J. Wineland, J. C. Berquist, J. J. Bollinger, W. M. Itano, D. J. Heinzen, C. H. Manney, F. L. Moore, M. G. Raizen, and C. S. Weimer
06-22-171	Ultra-stable Hg+ Trapped Ion Frequency Standard; J. D. Prestage, G. J. Dick, and L. Maleki
06-22-187	Design and Industrial Production of Frequency Standards in the USSR; N. A. Demidov and A. A. Uljanov
06-22-209	Long-Term Microwave Power Drift of a Cesium Frequency Standard and Its Effect on Output Frequency; W. A. Johnson, S. K. Karuza, and F. J. Voit
06-22-221	Rubidium Atomic Frequency Standards for GPS Block IIR; W. J. Riley
06-22-269	Zero-Crossing Detector with Sub-microsecond Jitter and Crosstalk; G. J. Dick, D. F. Kuhnle, and R. L. Sydnor
06-22-283	Hydrogen Masers with Cavity Frequency Switching Servos; H. E. Peters, H. B. Owings, and P. A. Koppang
06-22-293	Frequency Shifts in a Rubidium Frequency Standard Due to Coupling to Another Standard; B. Jaduszliwer, R. A. Cook, and R. P. Frueholz
06-22-301	Effect of Thermal Cycling on Stress in Metallic Films on Ceramic Substrates; E. M. Mattison and R. F. C. Vessot
06-22-317	GPS Block 2R Time Standard Assembly (TSA) Architecture; T. Baker
06-22-325	Interim Results from the Characterization Testing of the Engineering Development (EDM) Rubidium Clocks for Satellite Applications; E. Powers and F. Danzy
06-22-331	On the Length of the Drift Region in the Ramsey Cavity; P. Thomann
06-22-339	Time and Frequency Measuring Metrological Equipment in the USSR; A. A. Uljanov
06-22-349	Special Hydrogen Maser Workshop Held on Wednesday, December 5, 1990 Report; D. Morris
06-22-419	Physical Origin of the Frequency Shifts in Cesium Beam Frequency Standards: Related Environmental Sensitivity; C. Audoin, N. Dimarcq, V. Giordano, and J. Viennet
06-22-441	The Physics of the Environmental Sensitivity of Rubidium Gas Cell Atomic Frequency Standards; W. J. Riley
06-22-453	Physics of Systematic Frequency Variations in Hydrogen Masers; E. M. Mattison
06-22-487	Local Oscillator Induced Degradation of Medium-Term Stability in Passive Atomic Frequency Standards; G. J. Dick, J. D. Prestage, C. A. Greenhall, and L. Maleki
06-22-509	Performance of Soviet and U. S. Hydrogen Masers; A. A. Uljanov, N. A. Demidov, E. M. Mattison, R. F. C. Vessot, D. W. Allan, and G. M. R. Winkler
06-22-599	On the Line Q Degradation of Hydrogen Masers; L. G. Bernier, G. Busca, and H. Schweda
06-23-161	A Hydrogen Maser with Cavity Auto-Tuner for Timekeeping; C. F. Lin, J. W. He, and Z. C. Zhai
06-23-169	A Kind of Small Hydrogen Maser for Time-keeping; Z. C. Zhai, C. F. Lin, J. W. He, H. X. Huang, and J. F. Liu
06-23-229	Measuring Frequency Changes Due to Microwave Power Variations As a Function of C-field Setting in a Rubidium Frequency Standard; E. B. Sarosy, W. A. Johnson, S. K. Karuza, and F. J. Voit
06-23-237	Development of an Optically-Pumped Cesium Standard at the Aerospace Corporation; Y. C. Chan
06-23-277	Compact Microwave Cavity for Hydrogen Atomic Clock; Z. Dejun, Z. Yan, F. Yigen, and Z. Yanjun
06-23-287	A Correlational Analysis of the Effects of Changing Environmental Conditions on the NR Atomic Hydrogen Maser; R. A. Dragonette and J. J. Suter
06-23-307	Frequency Stability of GPS Navstar Block I and Block II On-Orbit Clocks; T. B. McCaskill, W. G. Reid, J. A. Buisson, and H. E. Warren
06-23-385	In Orbit Demonstration of a H-Maser Clock System; G. Busca, L. G. Bernier, S. Starker, and S. Feltham
06-24-159	A Laser-Cooled Cesium Fountain Frequency Standard and a Measurement of the Frequency Shift Due to Ultra-cold Collisions; K. Gibble, S. Kasapi, and S. Chu
06-24-163	Disciplined Rubidium Oscillator with GPS Selective Availability; W. P. Dewey
06-24-185	Possible Applications of Atomic Frequency Standards with an Internal High Resolution Digital Synthesizer; E. Detoma and A. Stern
06-24-199	CAFS - A Cesium Atomic Frequency Standard for GPS Block IIR; J. A. Wisnia
06-24-209	Status of Local Oscillators for Operating Ultra-high Resolution Frequency Discriminators As Frequency Standards; R. F. C. Vessot, E. M. Mattison, M. W. Levine, and R. L. Walsworth
06-24-221	Development of a Cryogenic Hydrogen Maser at the NPL; R. Mossavati
06-25-329	Cesium and Rubidium Frequency Standards Status and Performance on the GPS Program; M. J. Van Melle
06-25-345	Hydrogen Masers and Cesium Fountains At NRC; J. S. Boulanger, D. Morris, R. J. Douglas, and M.-C. Gagne
06-25-467	Hydrogen Maser Clocks in Space for Solid-Earth Research and Time Transfer Applications: Experiment Overview and Evaluation of Russian Miniature Sapphire Loaded Cavity; G. Busca, L. G. Bernier, P. Silvestrin, S. Feltham, B. A. Gaygerov, and V. M. Tatarenkov
06-26-201	Investigation into the Effects of VHF and UHF Band Radiation on Hewlett-Packard Cesium Beam Frequency Standards; A. Dickens
06-26-405	SVN 9 End-of-Life Testing; 1Lt. G. E. Hattan
06-27-125	Observations on the Reliability of Rubidium Frequency Standards on Block Il/IIA GPS Satellites; 1Lt. G. L. Dieter and Capt. G. E. Hatten
06-27-167	Cesium and Rubidium Frequency Standards Status and Performance on the GPS Program; M. J. Van Melle
06-27-181	High Precision Time Transfer to Test a Hydrogen Maser on Mir; E. M. Mattison and R. F. C. Vessot
06-27-209	Tutorial: Clock and Clock Systems Performance Measures; D. W. Allan
06-27-235	The Impact of the HP 5071A on International Atomic Time (Appendix A); D. W. Allan, A. Lepek, L. Cutler, Giffard, and J. Kusters
06-27-257	Steering of Frequency Standards by the Use of Stochastic Linear Quadratic Gaussian Control Theory; P. Koppang and R. Leland
06-28-011	Impact of Atomic Clocks on Navigation, Communication, and Science; G. Busca
06-28-025	Impact of International Decisions on TAI Generation; C. Thomas
06-28-051	Time and Frequency Keeping and Its Distribution System at CRL; M. Imae, M. Hosokawa, Y. Hanado, K. Imamura, A. Otsuka, and T. Morikawa
06-28-065	Frequency Standards, Timekeeping, and Traceable Services at the National Research Council of Canada; R. J. Douglas, J.-S. Boulanger, S. Cundy, M.-C. Gagne, W. Cazemier, B. Hoger, R. Pelletier, J. Bernard, A. A. Madej, L. Marmet, K. Siemsen, and B. G. Whitford
06-28-075	Time and Frequency Activities at NIST; J. Levine and D. B. Sullivan
06-28-083	European PTTI Report; F. Cordara, A. De Marchi, M. Serafino, and S. Leschiutta
06-28-237	PTB's Primary Clock CS1: First Results After Its Construction; A. Bauch, H. Brand, T. Heindorff, B. Fischer, and R. Schroeder
06-28-245	The JPL Hg+ Extended Linear Ion Trap Frequency Standard: Status, Stability, and Accuracy Prospects; R. L. Tjoelker, J. D. Prestage, and L. Maleki
06-28-255	NIST-7, The U.S. Primary Frequency Standard: New Evaluation Techniques; R. E. Drullinger, J. H. Shirley, and W. D. Lee
06-28-265	A Derivation of the Dick Effect from Control-Loop Models for Periodically Interrogated Passive Frequency Standards; C. A. Greenhall
06-28-273	Temperature Control for Hydrogen Maser Frequency Standards; Y. Fu, Z. Xhou, and X. Liu
06-28-281	First Commercial Prototype of an Optically Pumped Cesium-Beam Frequency; M. L. Baldy
06-28-289	Ultrasensitive High Resolution Laser Spectroscopy and Its Application to Optical Frequency Standards; J. Ye, L.-S. Ma, and J. L. Hall
06-28-429	The End of an Era: SVN 10 End-of-Life Frequency Standard Testing; 1Lt. G. L. Dieter and M. J. Van Melle
06-28-455	GLONASS Onboard Time/Frequency Standards: Ten Years of Operation; A. B. Bassevich, P. P. Bogdanov, A. G. Gevorkyan, and A. E. Tyulyakov
06-28-463	Design of a Hydrogen Maser for Space; E. M. Mattison and R. F. C. Vessot
06-28-477	PHARAO: A Space Clock with Cold Cesium Atoms; P. Laurent, E. Simon, G. Santarelli, A. Clairon, Ch. Salmon, P. Lemonde, N. Dimarcq, C. Audoin, F. Gonzalez, and F. J. Changeart
06-29-049	Maintenance of HP 5071A Primary Frequency Standards at USNO; H. Chadsey and A. Kubik
06-29-061	The SHM Hydrogen Atomic Clock for Space Applications: Development and Test of the PEM Physics Package; L. G. Bernier, A. Jornod, H. Schweda, R. Gentsch, and G. Busca
06-29-085	The CCTF Working Group on the Expression of Uncertainties in Primary Frequency Standards; R. J. Douglas and C. Thomas
06-29-181	SVN 20 End-Of-Life Frequency Standard Test Results; Lt. R. E. Bower, G. L. Dieter, and M. J. Van Melle
06-29-201	Atomic Frequency Standards for the GPS IIF Satellites; W. Emmer and E. Watts
06-29-213	Early In-Orbit Performance of GPS Block IIR Rubidium Clocks; W. J. Riley
06-29-329	A Study Examining the Possibility of Obtaining Traceability to UK National Standards of Time and Frequency Using GPS-Disciplined Oscillators; J. A. Davis and J. M. Furlong
06-30-135	Performance of GPS On-Orbit NAVSTAR Frequency Standards and Monitor Station Time References; O. Oaks, T. McCaskill, M. Largay, W. Reid, and J. Buisson
06-30-145	GPS Block IIR Rubidium Atomic Frequency Standard Life Test; R. Beard, J. White, J. Brad, S. Stebbins, J. Smathers, T. Myers, F. Danzy, A. Frank, W. Reid, and J. Buisson
06-30-161	Short-Term Characterizations of GPS-Disciplined Oscillators and Field for Frequency of Italian Calibration Centers; V. Pettiti and F. Cordara
06-30-173	Analysis of On-Orbit Behavior of GPS Block II-R Time Keeping System; T. Dass, J. Petzinger, J. Rajan, and H. Rawicz
06-30-187	Real-Time GPS Monitoring of Atomic Frequency Standards in the Canadian Active Control System (CACS); F. Lahaye, M. Caissy, J. Popelar, and R. Douglas
06-30-219	IEM Kvarz and Quartzlock's GPS-Disciplined Rubidium Frequency and Time Standard; C. Green
06-31-065	Long-Term Stability of a Rubidium Atomic Clock in Geosynchronous Orbit; J. Coffer and J. Camparo
06-31-075	Performance of Global Positioning System Block II/IIA/IIR On-Orbit NAVSTAR Clocks; T. McCaskill, O. Oaks, M. Largay, W. Reid, H. Warren, and J. Buisson
06-31-101	Redundant Atomic Frequency Standard Timekeeping System with Seamless AFS Switchover; V. Reinhardt and C. Sheckells
06-31-211	Time and Frequency Activities at the CSIRO National Measurement Laboratory, Sydney, Australia; P. Fisk, R. Warrington, M. Lawn, and M. Wouters
06-31-219	Time and Frequency Activities at IEN; F. Cordara, G. Brida, A. Godone, F. Levi, L. Lorini, M. Mascarello, S. Micalizio, V. Pettiti, P. Tavella, and G. Vizio
06-31-231	Update on Time and Frequency Activities at NIST; T. Parker and D. Sullivan
06-31-241	Overview of Research Activities on Time and Frequency at the Communications Research Laboratory; M. Hosokawa, M. Imae, T. Morikawa, N. Kurihara, and K. Okamoto
06-31-247	Time and Frequency Activities at the National Physical Laboratory; J. Davis
06-31-257	Recent and Pending Improvements at the U.S. Naval Observatory; D. Matsakis
06-31-297	Use of Primary Frequency Standards for Estimating the Duration of the Scale Unit of TAI; G. Petit
06-31-449	Comparison of Atomic Frequency Standards at NIST and PTB Using Carrier-Phase GPS; L. Nelson, J. Levine, T. Parker, K. Larson, P. Hetzel, and J. Becker
06-31-579	Progress in the Development of IEM KVARZ Passive Hydrogen Masers; N. Demidov, A. Pastukhov, and A. Uljanov
06-31-589	Vertical Cavity Lasers for Atomic Time Standards; H. Zappe
06-31-597	Improved Timekeeping Using Advanced Trapped-Ion Clocks; R. Tjoelker, J. Prestage, and L. Maleki
06-31-605	On the Use of Lambda Transitions in Atomic Frequency Standards; F. Levi, A. Godone, S. Micalizio, and J. Vanier
06-31-615	A Cost-Effective Time and Frequency Reference; V. Candelier, G. Marotel, D. Thorax, and C. Trialoup
06-31-627	Rubidium Atomic Clock for Galileo; A. Jeanmaire, P. Rochat, and F. Emma
06-31-649	An Automated Alarm Program for HP5071A Frequency Standards; H. Chadsey
06-31-657	Airborne Comparison of an Ultra-Stable Quartz Oscillator With a H-Maser As Another Possible Validation of General Relativity; A. Grishaev
06-32-269	Performance and Characterization of U.S. Naval Observatory Clocks; L. Breakiron and D. Matsakis
06-32-311	Theoretical and Experimental Study of Light Shift in a CPT-Based RB Vapor Cell Frequency Standard; M. Zhu and L. Cutler
06-32-325	Preliminary Results from the USNO Atomic Fountain Development Project; T. Swanson, E. Burt, and C. Ekstrom
06-32-331	Stabilized Reference Frequency Distribution for Radio Science with the Cassini Spacecraft and the Deep Space Network; M. Calhoun, R. Wang, A. Kirk, W. Diener, G. Dick, and R. Tjoelker
06-32-355	Development of a Primary Reference Clock; C. Green
06-32-389	Development and Evaluation of GPS Space Clocks for GPS III and Beyond; A. Wu and W. Feess
06-32-445	Primary Reference Clocks Using Indoor Antennas; D. Mitchell
06-32-455	Time and Frequency Activities at the CSIR National Metrology Laboratory; E. Marais
06-32-463	Detection of the Gravitational Redshift of the Cesium Frequency Standard at CRL; M. Hosokawa, N. Kotake, K. Imamura, and N. Kurihara
06-33-007	Space Clocks - Why They're Different; J. White and R. Beard
06-33-019	Optically Pumped Cesium-beam Frequency Standard for GPS III; R. Lutwak, D. Emmons, R. Garvey, and P. Vlitas
06-33-033	A Compact, Continuous Beam Cold Atom Clock for Satellite Applications; W. Buell and H. Wang
06-33-045	Mercury Trapped-ion Frequency Standard for the Global Positioning System; R. Tjoelker, E. Burt, S. Chung, R. Glaser, R. Hamell, L. Lim, L. Maleki, J. Prestage, N. Raouf, T. Radey, C. Sepulveda, G. Sprague, B.Tucker, and B. Young
06-33-293	Report on the Time and Frequency Activities of the Time Service Department of the U.S. Naval Observatory; D. Matsakis
06-33-309	Primary Frequency Standards at NIST; R. Drullinger
06-33-321	Update on Time and Frequncy Activities at PTB; P. Hetzel and A. Bauch
06-33-469	Performance of Global Positioning System Block II/IIA/IIR On-Orbit Navstar Clocks; J. Oaks, T. McCaskill, M. Largay, and J. Buisson
06-33-525	Influence of Laser Noise on the Optically Pumped, Atomic- beam Clock; J. Camparo
06-33-535	A New Synchronized Miniature Rubidium Oscillator With an Auto-adaptive Disciplining Filter; P. Rochat and B. Leuenberger
06-34-003	PTTI Distinguished Service Award to Mr. Harry E. Peters; P. Koppang
06-34-077	Global Positioning System Constellation Clock Performance; J. Oaks, M. Largay, W. Reid, and J. Buisson
06-34-089	Enhancements to the GPS Block IIR Timekeeping System; J. Petzinger, R. Reith, and T. Dass
06-34-117	End-of-life Indicators for NIMA's High-performance Cesium Frequency Standards; C. Brock, B. Tolman, and R. Taylor
06-34-127	The Experimental Precise Timing Station (E-PTS) for the Galileo System Test Bed (Phase V1): Architectural Design and Experimental Goals; E. Detoma, S. Facioni, M. Gotta, G. Graglia, F. Cordara, L. Lorini, V. Pettiti, P. Tavella, and J. Hahn
06-34-139	CPT Maser Clock Evaluation for Galileo; F. Levi, A. Godone, S. Micalizio, C. Calosso, E. Detoma, P. Morsaniga, and R. Zanello
06-34-151	The Global Navigation Satellite System GLONASS: Development and Usage in the 21st Century; G. Polischuk, V. Kozlov, V. Ilitchov, A. Kozlov, V. Bartenev, V. Kossenko, N. Anphimov, S. Revnivykh, S. Pisarev, A. Tyulyakov, B. Shebshaevitch, A. Basevitch, and Y. Vorokhovsky
06-34-161	The Development of a Passive Hydrogen Maser Clock for the Galileo Navigation System; L. Mattioni, M. Belloni, P. Berthoud, I. Pavlenko, H. Schweda, Q. Wang, P. Rochat, F. Droz, P. Mosset, and H. Ruedin
06-34-175	GPS Clocks in Space: Current Performance and Plans for the Future; T. Dass, G. Freed, J. Petzinger, J. Rajan, T.Lynch, and J. Vaccaro
06-34-215	Panel Discussion: The Future of clock Technology for Space; J. White, R. Beard, M. Bloch, J. Bolger, M. Garvey, P. Rochat, and S. Leschiutta
06-34-333	Design Concept for the Microwave Interrogation Structure in PARCS; G. Dick, W. Klipstein, T. Heavner, and S. Jefferts
06-34-341	The Crystal Oscillator Characterization Facility at the Aerospace Corporation; S. Karuza, M. Rolenz, A. Moulthrop, A. Young, and V. Hunt
06-34-425	Time and Frequency Activities at the National Physical Laboratory; J. Davis, P. Whibberley, R. Hlavac, P. Stacey, D. Henderson, K. Szymaniec, W. Chalupczak, and J. Laverty
06-34-437	Time and Frequency Activities at the U.S. Naval Observatory; D. Matsakis
06-34-457	Recent Time and Frequency Activities at PTB; D. Piester, P. Hetzel, and A. Bauch
06-34-539	The Chip-scale Atomic Clock -- Coherent Population Trapping vs. Conventional Interrogation; R. Lutwak, D. Emmons, W. Riley, and R. Garvey
06-35-005	Presentation of the Distinguished PTTI Service Award to S. Clark Wardrip; J. White
06-35-023	Time and Frequency Activities at the U.S. Naval Observatory; D. Matsakis
06-35-039	The National Time and Frequency Service of the Russian Federation; V. Krutikov, V. Kostromin, and N. Koshelyaevsky
06-35-059	An Update on PTB's Activities in Time and Frequency; D. Piester, A. Bauch, J. Becker, and T. Polewka
06-35-117	GPS IIR Rubidium Clocks: In-Orbit Performance Aspects; M. Epstein, G. Freed, and J. Rajan
06-35-173	Global Positioning System Constellation Clock Performance; J. Oaks, K. Senior, M. Largay, W. Reid, H. Warren, and J. Buisson
06-35-307	New Realization of Terrestrial Time; G. Petit
06-35-333	Advanced Clocks for PTTI; J. White
06-35-333	The State of the Art in Amateur Timekeeping; T. Van Baak
06-35-427	One-liter Ion Clock: New Capability for Spaceflight Applications; J. Prestage, S. Chung, T. Le, M. Beach, L. Maleki, and R. Tjoelker
06-35-435	Investigations of Vapor-Cell Clock Equilibration Following Initial Activation: A Progress Report; S. Herbulock, C. Klimcak, A. Presser, J. Milne, and J. Camparo
06-35-445	End Resonances for Atomic Clocks; A. Post, Y. Jau, N. Kuzma, A. Braun, S. Lipp, J. Abeles, M. Romalis, E. Miron, and W. Happer
06-35-457	Using Laser Diode Instabilities for Chip-Scale Stable Frequency References; T. Simpson, F. Doft, and W. Golding
06-35-467	The Chip-Scale Atomic Clock - Recent Development Progress; R. Lutwak, D. Emmons, T. English, W. Riley, A. Duwel, M. Varghese, D. Serkland, and G. Peake
06-35-479	Opto-electronic Oscillator Stabilized by a Hyperfine Atomic Transition; D. Strekalov, D. Aveline, A. Matsko, R. Thompson, N. Yu, and L. Maleki
06-35-489	Development of New Rb Clocks in Observatoire de Neuchatel; C. Affolderbach and G. Mileti
06-36-173	Ultra-Low-Noise Cavity-Stabilized Microwave Reference Oscillator Using an Air-Dielectric Resonator; C. Nelson, D. Howe, and A. Sen Gupta
06-36-179	Time and Frequency Activities at the Physikalisch-Technische Bundesanstalt; D. Piester, A. Bauch, J. Becker, and T. Polewka
06-36-195	Overview of Research Activities on Time and Frequency at the National Institute of Information and Communications Technology; M. Hosokawa, Y. Takahashi, S. Hama, H. Toriyama, and T. Morikawa
06-36-339	The Chip-Scale Atomic Clock - Low-Power Physics Package; R. Lutwak, J. Deng, W. Riley, M. Varghese, J. Leblanc, G. Tepolt, M. Mescher, D. Serkland, K. Geib, and G. Peake
06-36-355	Components for Batch-Fabricated Chip-Scale Atomic Clocks; M. Kwakernaak, S. Lipp, S. McBride, P. Zanzucchi, W. Chan, V. Khalfin, H. An, R. Whaley, B. Willner, A. Ulmer, J. Li, T. Davis, A. Braun, J. Abeles, A. Post, Y. Jau, N. Kuzma, and W. Happer
06-36-383	Microfabricated Atomic Clocks at NIST; S. Knappe, P. Schwindt, V. Gerginov, V. Shah, L. Hollberg, J. Kitching, L. Liew, and J. Moreland
06-36-393	Frequency Equilibration and the Light-Shift Effect for Block IIR Rubidium Clocks; J. Camparo
06-36-411	The Long-Term Stability of the U.S. Naval Observatory's Masers; D. Matsakis, P. Koppang, and R. Garvey
06-36-423	Development of a Spaceborne Hydrogen Maser Atomic Clock for Quasi-Zenith Satellites; H. Ito, T. Morikawa, H. Ishida, S. Hama, K. Kimura, S. Yokota, S. Mattori, Y. Numata, M. Kitayama, and K. Takahei
06-36-431	Comparative Analysis of GPS Clock Performance Using Both Code-Phase and Carrier-Derived Pseudorange Observations; J. Oaks, M. Largay, W. Reid, and J. Buisson
06-37-012	NRL Analysis of GPS On-Orbit Clocks; J. Oaks, K. Senior, M. Largay, R. Beard, and J. Buisson
06-37-019	GPS Block IIR Clocks in Space: Current Performance and Plans for the Future; J. Phelan, T. Dass, G. Freed, J. Rajan, J. D'Agostino, and M. Epstein
06-37-026	The Onboard Galileo Rubidium and Passive Maser, Status, and Performance; R. Rochat, F. Droz, P. Mosset, G. Barmaverain, Q. Wang, D. Boving, L. Mattoni, M. Belloni, M. Gioia, U. Schmidt, T. Pike, and F. Emma
06-37-093	Comparison with an Uncertainty of 2x10-16 between Two Primary Frequency Standards; C. Mandache, C. Vian, P. Rosenbusch, H. Marion, P. Laurent, G. Santarelli, S. Bize, A. Clairon, A. Luiten, and M. Tobar
06-37-099	Distributed Cavity Phase and the Associated Power Dependence; R. Li and K. Gibble
06-37-105	On the Power Dependence of Extraneous Microwave Fields in Atomic Standards; S. Jefferts, J. Shirley, N. Ashby, T. Heavner, E. Donley, and F. Levi
06-37-111	Limitations to the Short Term Frequency Stability in a Compact Cold Atom Clock; S. Tremine, S. Guerandel, D. Holleville, J. Delporte, N. Dimarcq, and A. Clairon
06-37-117	Testing Lorentz Invariance Using Zeeman Transitions in Atomic Fountains; P. Wolf, F. Clapelet, S. Bize, and A. Clairon
06-37-217	Time and Frequency Activities at the U.S. Naval Observatory; D. Matsakis
06-37-225	Update of Research Activities on Time and Frequency at the National Institute of Information and Communications Technology (NICT); S. Hama, M. Hosokawa; Y. Takahashi, H. Toriyama, and T. Morikawa
06-37-231	Time and Frequency Activities at the National Measurement Institute, Australia; R. Warrington, P. Fisk, M. Wouters, M. Lawn, J. Thorn, S. Quigg, A. Gajaweera, and S. Park
06-37-261	Long Term Study of the H-Maser Clocks at the Royal Observatory of Belgium; F. Roosbeek and P. Defraigne
06-37-266	Progress in Building NRC's Cesium Fountain Clock; L. Marmet, P. Dube, and C. Gigault
06-37-270	Laser-Cooled Continuous Cs-Beam Master Oscillator; H. Wang, W. Buell, and G. Iyanu
06-37-276	The New PTB Caesium Fountain Clock CSF2; R. Wynands, A. Bauch, D. Griebsch, R. Schroeder, and S. Weyers
06-37-279	Light Shift Measurements in a Cesium Fountain Without the Use of Mechanical Shutters; D. Enzer, W. Klipstein, and R. Tjoelker
06-37-285	Measurements of Cesium Polarizability in Atomic Clock via Light Frequency Shift; J. Chen
06-37-288	Demonstration and Observation of a Frequency Standard Based on an Expanding Cold Atoms Cloud of Cesium; S. Miller, D. Magalhaes, A. Bebeachibuli, M. Santos, and V. Bagnato
06-37-292	Laser Cooling and Launching Performance in a (1,1,1)-Geometry Atomic Fountain; E. Donley, T. Heavner, J. O'Brien, S. Jefferts, and F. Levi
06-37-297	Nonmagnetic UHV Optical Viewports; S. Crane and C. Ekstrom
06-37-301	Miniaturized Atomic Fountain Optical Table; S. Crane, S. Peil, and C. Ekstrom
06-37-304	Design and Preliminary Characterization of the USNO Rubidium Fountain; S. Peil, S. Crane, T. Swanson, and C. Ekstrom
06-37-308	A New Microwave Synthesis Chain for the Primary Frequency Standard NIST-F1; T. Heavner, S. Jefferts, E. Donley, T. Parker, and F. Levi
06-37-404	Clock Management Data Analysis for Satellite Communications; R. Gross and R. Melkers
06-37-463	Dynamic Frequency Response of the Auto-Tuned Hydrogen Maser to Systematic Perturbations; H. Peters
06-37-466	Characterization and Reduction of Number Dependent Sensitivity in Multi-Pole Linear Ion Trap Standards; E. Burt and R. Tjoelker
06-37-472	Liter Sized Ion Clock with 10-15 Stability; J. Prestage, S. Chung, T. Le, L. Lim, and L. Maleki
06-37-477	Ion-Acoustic Plasma Waves in rf-Discharge Lamps: Light-Shift Stabilization for Atomic Clocks; J. Camparo and C. Klimcak
06-37-488	Impedance Control for Critically Coupled Cavities; B. Riddle and C. Nelson
06-37-594	A Rubidium Frequency Standard Based on Unreal Time Control Approach; H. Zhou, W. Zhou, B. Qu, and Z. Xuan
06-37-598	Theoretical Studying About the Measurement of the C-Field Intensity in the Optical Pumped Cesium Frequency Standard; J. Zhang, F. Wang, and D. Yang
06-37-602	Characterizing Absorption Spectrum of Natural Rubidium by Using a Directly Modulated VCSEL; I. Ben-Aroya and G. Eisenstein
06-37-608	Optical Lattice Laser; J. Chen and X. Chen
06-37-611	Development of a 171Yb+ Microwave Frequency Standard at the National Measurement Institute, Australia; R. Warrington, P. Fisk, M. Wouters, M. Lawn, J. Longdell, and S. Park
06-37-616	Single Ca+ Ion Trapping Toward Precise Frequency Measurement of the 4 2S1/2-3 2D5/2 Transition; K. Matsubara, Y. Li, M. Kajita, K. Hayasaka, M. Hosokawa, and S. Urabe
06-37-639	Robust Control of Frequency Standards in the Presence of Systematic Disturbances; J. Skinner, P. Koppang, and D. Johns
06-37-677	Characterizing the Performance of GPS Disciplined Oscillators with Respect to UTC(NIST); M. Lombardi, A. Novick, and V. Zhang
06-37-752	The MAC - A Miniature Atomic Clock; R. Lutwak, P. Vlitas, M. Varghes, M. Mescher, D. Serkland, and G. Peake
06-37-758	Component-Level Demonstration of a Microfabricated Atomic Frequency Reference; V. Gerginov, S. Knappe, P. Schwindt, V. Shah, L. Liew, J. Moreland, H. Robinson, L. Hollberg, J. Kitching, A. Brannon, J. Breitbarth, and Z. Popvic
06-37-767	A Novel Absorption Resonance for Atomic Clocks; D. Phillips, I. Novikova, S. Zibrov, C. Smallwood, A. Taichenachev, V. Yudin, R. Walsworth, and A. Zibrov
06-37-774	Recent Results on a Pulsed CPT Clock; T. Zanon, S. Tremine, S. Guerandel, F. Dahes, E. de Clercq, A. Clairon, and N. Dimarcq
06-37-840	NGA GPS Monitor Station High-Performance Cesium Frequency Standard Stability: From NGA Kalman Filter Clock Estimates; D Manning
06-37-919	A High Performance Frequency Standard and Distribution System for Cassini Ka-Band Experiment; R. Wang, M. Calhoun, A. Kirk, W. Diener, G. Dick, and R. Tjoelker
06-37-940	A Solid-State Atomic Frequency Standard; C. White and A. Hajimiri
06-37-947	Minimizing the Required Trap Depth in Optical Lattice Clocks; P. Lemonde and P. Wolf
06-38-017	Update of Research Activities in Time and Frequency at the National Institute of Information and Communications Technology (NICT); K. Matsubara, S. Hama, K. Imamura, Y. Koyama, H. Toriyama, and M. Hosokawa, National Institute of Information and Communications Technology, Japan
06-38-069	Historical Review of Atomic Frequency Standards Used in Space Systems: 10 Year Update; L. Mallette, The Boeing Company; P. Rochat, Temex Time, Switzerland; and J. White, U.S. Naval Research Laboratory
06-38-081	Verification and Optimization of the Physics Parameters of the Onboard Galileo Passive Hydrogen Maser; Q. Wang, P. Mosset, F. Droz, P. Rochat, Temex Time, Switzerland; and G. Busca, Kytime, Switzerland
06-38-095	Miniaturized Mercury Ion Clock for Ultra-stable Deep Space Applications; J. Prestage, S. Chung, L. Lim, and T. Le, California Institute of Technology
06-38-105	A Multi-Channel Stability Analyzer for Frequency Standards in the Deep Space Network; C. Greenhall, A. Kirk, and R. Tjoelker, California Institute of Technology
06-38-123	Quadrapole Transition Spectrum Measurement of Single Ca+ Ions Toward Optical Frequency Standards; K. Matsubara, Y. Li, K. Fukuda, H. Ito, S. Nagano, M. Kajita, K. Hayasaka, S. Urabe, and M. Hosokawa, National Institute of Information and Communications Technology, Japan
06-38-137	AF/NGA GPS Monitor Station High-Performance Cesium Frequency Standard Stability 2005/2006: From NGA Kalman Filter Clock Estimates; D. Manning, National Geospatial-Intelligence Agency
06-38-241	Long-Term Stability of NIST Chip-Scale Atomic Clock Physics Packages; S. Knappe, National Institute of Standards and Technology; V. Shah, University of Colorado; V. Gerginov, University of Notre Dame; A. Brannon, University of Colorado; L. Hollberg, and J. Kitching, National Institute of Standards and Technology
06-38-259	A CPT-Based 87Rb Atomic Clock Employing a Small Spherical Glass Vapor Cell; I. Ben-Aroya, M. Kahanov, and G. Eisenstein, Technion, Israel
06-38-271	Sub-10-16 Frequency Stability in the JPL Multi-Pole Linear Ion Trap Standard; E. Burt, D. Enzer, R. Wang, W. Diener, and R. Tjoelker, California Institute of Technology
06-39-045	Atomic and Quartz Clock Hardware for Communication and Navigation Satellites; L. Mallette
06-39-059	Long-Term Clock Behavior of GPS IIR Satellites; M. Epstein, T. Dass, J. Rajan, and P. Gilmour
06-39-095	GIOVE-A Apparent Clock Assessment and Results; J. Hahn, F. Gonzalez, P. Waller, D. Navarro-Reyes, R. Piriz, A. Mozo, V. Fernandez, M. Cueto, P. Tavella, and I. Sesia
06-39-119	A Summary of the GPS Constellation Clock Performance; J. Oaks, J. Buisson, and M. Largay
06-39-223	Towards Demonstration of a MOT-Based Continuous Cold Cs-Beam Atomic Clock; H. Wang, J. Camparo, and G. Iyanu
06-39-233	RF-Interrogated End-State Chip-Scale Atomic Clock; A. Braun, T. Davis, M. Kwakernaak, J. Michalchuk, A. Ulmer, W. Chan, L. Abeles, Z. Shellenbarger, Y. Jau, F. Gong, W. Happer, T. McClelland, H. Fruehauf, R. Drap, W. Weidemmann, and M. Variakojis
06-39-249	Compact Microwave Mercury Ion Clock for Space Applications; J. Prestage, M. Tu, S. Chung, and P. MacNeal
06-39-257	Single Ca+ Ion Trapping and Quadrupole Transition Measurement towards an Optical Frequency Standard; K. Matsubara, Y. Li, H. Ito, S. Nagano, K. Hayasaka, and M. Hosokawa
06-39-269	The Chip-Scale Atomic Clock - Prototype Evaluation; R. Lutwak, A. Rashed, M. Varghese, G. Tepolt, J. LeBlanc, M. Mescher, D. Serkland, K. Geib, G. Peake, and S. Roemisch
06-39-291	A Simplified Laser and Optics System for Laser-Cooled Rb Fountain Frequency Standards; P. Kunz, T. Heavner, and S. Jefferts
06-39-297	Development of a Conventional Laser-Pumped Rb Atomic Clocl: Status Report; C. Back and J. Camparo
06-39-303	Effects of Polarization Fluctuations in CPT-Based Atomic Clocks; M. Huang, J. Coffer, and J. Camparo
06-39-309	Prospects for Ultra-stable Timekeeping with Sealed Vacuum Operation in Multi-pole Linear Ion Trap Standards; E. Burt and R. Tjoelker
06-39-317	Influence of the Atmosphere on a Rubidium Clocks Frequency Aging; J. Camparo and C. Klimcak
06-40-017	The Master Clock Building at USNO Infrastucture; W. Walls
06-40-051	History and Performance of FEI Space-Class Oscillators; M. Bloch, O. Mancini, and T. McClelland
06-40-029	Ultrastable Oscillators for Space Application; P. Cash, D. Emmons, and J. Welgemoed
06-40-057	Enhancing the Art of Space Operations -- Progress in JHU/APL Ultra-Stable Oscillator Capabilities; G. Weaver, M. Reinhart, and R. Wallis
06-40-069	In-Orbit Performance Assessment of GIOVE Clocks; P. Waller, F. Gonzalez, J. Hahn, S. Binda, R. Piriz, I. Hidalgo, G. Tobias, Sesia, P. Tavella, and G. Cerretto
06-40-147	Towards an Integrated Optic Phase-Locked Oscillator; M. Watts, J. Kim, F. Kaertner, A. Lentine, and W. Zortman
06-40-157	Progress on a Portable Rubidium Fountain FrequencyStandard; P. Kunz, T. Heavner, and S. Jefferts
06-40-335	AF/NGA GPS Monitor Station High-Performance Cesium Frequency Standard Stability 2007/2008: From NGA Kalman Filter Clock Estimates; D. Manning and C. Petersen
06-40-361	Estimation and Prediction of the GIOVE Clocks; I. Hidalgo, R. Piriz, A. Mozo, G. Tobias,, P. Tavella, I. Sesia, G. Cerretto, P. Waller, F. Gonzalez, and J. Hahn
06-40-527	Locking a Rubidium Oscillator to a Remote Time Scale Using Real-Time Common-View GPS Measurement; M. Lombardi and A. Dahlen
06-41-473	Investigations into the Rb Clock's 2nd Harmonic Signal: A Status Report; G. Fathi and J. Camparo
06-41-493	Space Passive Hydrogen Maser--Performances, Lifetime Data, and GIOVE-B-related Telemetries; M. Belloni, M. Gioia, S. Beretta, F. Droz, P. Mosset, Q. Wang, P. Rochat, A. Resti, P. Waller, and A. Ostillio
06-41-509	Micro Ion Frequency Standard; P. Schwindt, R. Olsson, K. Wojciechowski, D. Serkland, T. Statom, H. Partner, G. Biedermann, L. Fang, A. Casias, and R. Manginell
06-41-519	A Space Rubidium Pulsed Optical Pumped Clock--Current Status, Results, and Future Activities; M. Belloni, A. Battisti, A. Cosentino, A. Sapia, A. Borella, S. Micalizio, A. Godone, F. Levi, C. Calosso, L. Zuliani, F. Longo, and M. Donati
06-41-531	Progress on a Portable Rubidium Fountain Frequency Standard; P. Kunz, T. Heavner, and S. Jefferts
06-42-305	10 to the Minus 10th-Level Simple Single-Oven OCXO; M. Ito, H. Mitome, and T. Oita
06-42-315	A Portable Rubidium Fountain; P. Kunz, T. Heavner, and S. Jefferts
06-42-321	Cesium Atomic Fountain Clocks at NMI; A. Takamizawa, S. Yanagimachi, Y. Shirakawa, K. Watabe, K. Hagimoto, and T. Ikegami
06-42-329	Studies on an Improved Compact Physics Package for Rubidium Standards; T. Bandi, C. Affolderbach, C. Calosso, and G. Mileti