Index to the proceedings of the Precise Time And Time Interval (PTTI) systems and applications (formerly applications and planning) meeting
VLBI, PULSARS AND RELATIVITY
The entry for each paper is preceded by a hyphenated numerical code indicating its subject, Proceedings volume number, and page number therein, i.e, 09-04-062 represents subject category "9", Proceedings volume number "4" and page number "62". The following index covers the PTTI Proceedings from the 2nd (1970) through the 41st (2009).
09-03-261 | Performance and Results of Portable Clocks in Aircraft; J. C. Hafele |
09-04-062 | Very Long Baseline Interferometry (VLBI) Earth Physics; P. MacDoran |
09-04-074 | Precision Timing and Very Long Baseline Interferometry; T. Clark |
09-04-090 | Tracking the Lunar Rover Vehicle with Very Long Baseline Interferometry Techniques; D. Shnidman |
09-04-100 | An Analysis and Demonstration of Clock Synchronization by VLBI; W. J. Hurd |
09-05-059 | Demonstration of Intercontinental Dsn Clock Synchronization by VLBI; W. J. Hurd |
09-06-345 | Very Long Baseline Interferometry (VLBI); M. H. Cohen |
09-06-349 | Application of Very Long-Base Line Interferometry To Astrometry and Geodesy: Effects of Frequency-Standard Instability on Accuracy; A. R. Whitney, A. E. E. Rogers, H. F. Hinteregger, L. B. Hanson, T. A. Clark, C. C. Counselman, III, and I. I. Shapiro |
09-06-361 | Worldwide Time and Frequency Synchronization By Planned VLBI Networks; R. J. Coates and T. A. Clark |
09-06-373 | Radio Astrometry; K. J. Johnston |
09-06-395 | Relativistic Effects of the Rotation of the Earth on Remote Clock Synchronization; V. Reinhardt |
09-06-425 | A Relativistic Analysis of Clock Synchronization; J. B. Thomas |
09-07-425 | VLBI: Past, Present, and Future (abstract); I. I. Shapiro |
09-07-429 | Precise Time for Very Long Baseline Interferometry at Santiago, Chile, and Related Problems Germane to This Geographic Area; F. Noel |
09-08-529 | First Results from a Satellite Data Link Radio Interferometer; S. H. Knowles, W. B. Waltman, N. W. Broten, D. H. Fort, K. I. Kellermann, B. Rayhrer, J. L. Yen, and G. W. Swenson |
09-09-085 | VLBI and Its Current Applications within the Solar System; J. L. Fanselow |
09-09-113 | Clock Rate Comparisons by Long Baseline Interferometry; W. H. Cannon, W. T. Petrachenko, and R. B. Langley |
09-09-127 | Precise Clock Synchronization via Very Long Baseline Interferometry; A. E. E. Rogers, A. R. Whitney, H. F. Hinteregger, C. A. Knight, T. A. Clark, W. J. Klepczynski, I. I. Shapiro, C. C. Counselman, and L. B. Hanson |
09-09-135 | Real-Time Accurate Time Transfer and Frequency Standards Evaluation via Satellite Link Long Baseline Interferometry; S. H. Knowles, W. B. Waltman, N. W. Broten, D. H. Fort, K. I. Kellermann, B. Rayhrer, G. W. Swenson, and J. L. Yen |
09-10-549 | Down to Earth Relativity; I. I. Shapiro |
09-11-557 | Demonstration of Remote Clock Monitoring by VLBI, with Three Baseline Closure; C. M. Cheetham, W. J. Hurd, J. W. I Ayland, G. A. Madrid, and T. P Yunck |
09-11-577 | Traveling Clock Verification of VLBI Clock Synchronization; L. E. Young |
09-11-585 | Early Results from a Prototype VLBI Clock Monitoring System; T. P. Yunck and G. A. Madrid |
09-12-445 | Short Turn-Around Intercontinental Clock Synchronization Using Very-Long-Baseline Interferometry--a Progress Report; G. A. Madrid, T. P. Yunck, and R. B. Henderson |
09-13-231 | Comparison of VLBI, TV, and Traveling Clock Techniques for Time; J. H. Spencer, E. B. Waltman, K. J. Johnston, N. J. Santini, W. J. Klepczynski, D. N. Matsakis, P. E. Angerhofer, and G. H. Kaplan |
09-13-489 | Intercontinental Clock Synchronization with the Block I VLBI System; M. G. Roth |
09-13-687 | Introduction to Some Fundamental Concepts of General Relativity and to Their Required Use in Some Modern Timekeeping Systems; C. O. Alley |
09-13-757 | The Implications of Precise Timekeeping for Doppler Gravitational Wave Observations; J. D. Anderson, F. B. Estabrook, and J. W. Armstrong |
09-13-801 | A Phase-Coherent Link Using the ANIK-B Satellite for Geodetic VLBI (abstract); W. B. Waltman, S. H. Knowles, W. H. Cannon, D. A. Dividson, W. T. Petrachenko, J. L. Yen, J. Popelar, D. N. Fort, and J. Galt |
09-15-443 | Precise Time Transfer Using MKIII VLBI Technology; K. J. Johnston, J. A. Buisson, M. J. Lister, O. J. Oaks, J. H. Spencer, W. B. Waltman, G. Elgered, G. Lundqvist, A. E. E. Rogers, T. A. Clark, C. Ma, A. C. Johnson, K. Kingham, W. J. Klepczynski, G. Luther, A. J. Kubik, and D. D. McCarthy |
09-16-295 | Development of Hydrogen Masers for K-3 VLBI System; T. Morikawa, Y. Ohta, and H. Kiuchi |
09-16-447 | Using GPS and VLBI Technology to Maintain 14 Digit Syntonization; S. C. Ward |
09-17-023 | Report on a Stable New Pulsar; K. W. Weiler |
09-18-453 | Millisecond Pulsar Rivals Best Atomic Clock Stability; L. Rawley, D. Stinebring, J. Taylor, M. Davis, and D. W. Allan |
09-19-367 | A New Test of Relativity; T. P. Krisher, L. Maleki, J. D. Anderson, and C. M. Will |
09-20-251 | Results of a New Test of Relativity; T. P. Krisher, L. Maleki, L. E. Primas, R. T. Logan, G. F. Lutes, and J. D. Anderson |
09-20-261 | Differential Comparison of the One-Way Speed of Light in the East-West and West-East Directions on the Rotating Earth; C. O. Alley, R. A. Nelson, Y. H. Shil, J. T. Broomfield, J. A. Fogelman, M. A. Perry, J. D. Raynor, C. A. Steggerda, B. C. Wang, M. J. Chandler, and L. J. Rueger |
09-21-171 | Final Results of a New Test of Relativity; T. P. Krisher, L. Maleki, L. E. Primas, G. F. Lutes, R. T. Logan, J. D. Anderson, and C. M. Will |
09-21-259 | Application of Hydrogen Maser Technology to the Search for Gravitational Radiation; J. D. Anderson, E. L. Lau, and J. W. Armstrong |
09-21-289 | Observation Plan of High-Stable Pulsars in CRL; S. Hama, M. Imae, H. Kluchi, K. Takaba, and P. Takahashi |
09-21-421 | Performance of Optical Fibers for Reference Frequency and IF Signal Transmissions in VLBI Observation; K. Sato and T. Hara |
09-22-131 | A Highly Stable Crystal Oscillator Applied to Geodetic VLBI Experiment; H. Kiuchi and J. Arnagai |
09-23-259 | Noninertial Coordinate Time: a New Concept Affecting Time Standards, Time Transfers, and Clock Synchronization; S. D. Deines |
09-23-377 | Millisecond Pulsar Observation System At CRL; Y. Hanado, H. Kiuchi, S. Hama, A. Kaneko, and M. Imae |
09-24-065 | Pulsar Astrometry by Using VLBI (PSR0329 between Kashima 21m0 and Usuda 64m0); S. Hama, H. Kiuchi, Y. Hanado, Y. Takahashi, M. Imae, K. Fujisawa, H. Hirabayashi, and H. Kobayashi |
09-24-073 | An Ensemble Pulsar Time; G. Petit, C. Thomas, and P. Tavella |
09-24-105 | Plans to Improve the Experimental Limit in the Comparison of the East-West and West-Wast One-Way Light Propagation Times on the Rotating Earth; C. O. Alley, T. E. Kiess, R. A. Nelson, A. U. Sergienko, Y. H. Shih, B. C. Wang, and F. M. Yang |
09-25-205 | Relativistic Theory for Picosecond Time Transfer in the Vicinity of the Earth; G. Petit and P. Wolf |
09-26-209 | Relativistic Timescale Analysis Suggests Lunar Theory Revision; S. D. Deines and C. A. Williams |
09-26-381 | Relativistic Theory for Syntonization of Clocks in the Vicinity of the Earth; G. Petit and P. Wolf |
09-26-455 | Satellite Test of the Isotropy of the One-Way Speed of Light Using EXTRAS; P. Wolf |
09-27-159 | GPS/GLONASS Time Transfer with 20-Channel Dual GNSS Receiver; P. Daly and S. Riley |
09-27-387 | Limits to the Stability of Pulsar Time; G. Petit |
09-27-447 | Application of Millisecond Pulsar Timing to the Long-Term Stability of Clock Ensembles; R. S. Foster and D. N. Matsakis |
09-27-467 | Spacecraft Doppler Tracking as a Xylophone Detector; M. Tinto |
09-28-051 | Time and Frequency Keeping and Its Distribution System at CRL; M. Imae, M. Hosokawa, Y. Hanado, K. Imamura, A. Otsuka, and T. Morikawa |
09-28-189 | GPS and Relativity: An Engineering Overview; H. F. Fliegel and R. S. DiEsposti |
09-28-225 | Pulsar-Appropriate Clock Statistics; D. N. Matsakis and F. J. Josties |
09-28-471 | Spacecraft-Spacecraft Doppler Tracking as a Xylophone Interferometer Detector of Gravitational Radiation; M. Tinto |
09-29-069 | GPS Receivers and Relativity; M. Weiss and N. Ashby |
09-29-107 | Narrow-Band Searches for Gravitational Radiation with Spacecraft Doppler Tracking; M. Tinto and J. W. Armstrong |
09-30-089 | Millisecond Pulsar Observation at CRL; Y. Hanado, M. Imae, M. Hosokawa, M. Sekido, A. Kaneko, and Y. Shibuya |
09-30-117 | Unequal-Arms Michelson Interferometers; M. Tinto and J. Armstrong |
09-31-241 | Overview of Research Activities on Time and Frequency at the Communications Research Laboratory; M. Hosokawa, M. Imae, T. Morikawa, N. Kurihara, and K. Okamoto |
09-31-657 | Airborne Comparison of an Ultra-Stable Quartz Oscillator With a H-Maser As Another Possible Validation of General Relativity; A. Grishaev |
09-32-301 | Observing a Gravitational Wave Background with LISA; M. Tinto, J. Armstrong, and F. Estabrook |
09-32-331 | 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 |
09-32-463 | Detection of the Gravitational Redshift of the Cesium Frequency Standard at CRL; M. Hosokawa, N. Kotake, K. Imamura, and N. Kurihara |
09-32-471 | Millisecond Pulsar Observation at CRL; Y. Hanado, Y. Shibuya, M. Hosokawa, M. Sekido, and M. Imae |
09-33-493 | Observable Relativistic Frequency Steps Induced by GPS Orbit Changes; M. Epstein, E. Stoll, and J. Fine |
09-33-509 | Relativistic Effects on SV Clocks Due to Orbit Changes, and Due to Earth's Oblateness; N. Ashby |
09-34-007 | Satellite Time Transfer Past and Present; J. Oaks and J. Buisson |
09-34-201 | Timekeeping and Time Dissemination in a Distributed Space-based Clock Ensemble; S. Francis, B. Ramsey, S. Stein, J. Leitner, M. Moreau, R. Burns, R. Nelson, T. Bartholomew, and A. Gifford |
09-34-295 | Ephemeris Determination Using a Connected Element Interferometer; D. Morrison, S. Pogorelc, T. Celano, and A. Gifford |
09-35-307 | New Realization of Terrestrial Time; G. Petit |
09-36-053 | Quantum Positioning System; T. Bahder |
09-36-195 | 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 |
09-37-117 | Testing Lorentz Invariance Using Zeeman Transitions in Atomic Fountains; P. Wolf, F. Clapelet, S. Bize, and A. Clairon |
09-37-225 | 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 |
09-38-305 | Relativistic Transformations for Time Synchronization and Dissemination in the Solar System; R. Nelson, Satellite Engineering Research Corporation, and T. Ely, California of Technology |
09-38-389 | Time Dilation and the Length of the Second; S. Deines, SiRF Technology Holdings, and C. Williams, University of South Florida |
09-39-079 | The In-flight Frequency Behavior of Two Ultra-stable Oscillators Onboard the New Horizons Spacecraft; J. Jensen and G. Weaver |
08-40-057 | Enhancing the Art of Space Operations -- Progress in JHU/APL Ultra-Stable Oscillator Capabilities; G. Weaver, M. Reinhart, and R. Wallis |
09-40-107 | Phase Transfer for Radio Astronomy Interferometers, over Installed Fiber Networks, Using a Round-Trip Correction System; S. Garrington, R. Spencer, R. Davis, and B. Anderson |