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1,009 results on '"Anderson, J. D."'

1. Odyssey: a Solar System Mission

Author

Christophe, B., Andersen, P. H., Anderson, J. D., Asmar, S., Bério, Ph., Bertolami, O., Bingham, R., Bondu, F., Bouyer, Ph., Bremer, S., Courty, J. -M., Dittus, H., Foulon, B., Gil, P., Johann, U., Jordan, J. F., Kent, B., Lämmerzahl, C., Lévy, A., Métris, G., Olsen, O., Pàramos, J., Prestage, J. D., Progrebenko, S. V., Rasel, E., Rathke, A., Reynaud, S., Rievers, B., Samain, E., Sumner, T. J., Theil, S., Touboul, P., Turyshev, S., Vrancken, P., Wolf, P., and Yu, N.

Subjects
General Relativity and Quantum Cosmology
Abstract

The Solar System Odyssey mission uses modern-day high-precision experimental techniques to test the laws of fundamental physics which determine dynamics in the solar system. It could lead to major discoveries by using demonstrated technologies. The mission proposes to perform a set of precision gravitation experiments from the vicinity of Earth to the outer Solar System. Its scientific objectives can be summarized as follows: i) test of the gravity force law in the Solar System up to and beyond the orbit of Saturn; ii) precise investigation of navigation anomalies at the fly-bys; iii) measurement of Eddington's parameter at occultations; iv) mapping of gravity field in the outer solar system and study of the Kuiper belt. To this aim, the Odyssey mission is built up on a main spacecraft, designed to fly up to 13 AU, with the following components: a) a high-precision accelerometer, with bias-rejection system, measuring the deviation of the trajectory from the geodesics; b) Ka-band transponders, as for Cassini, for a precise range and Doppler measurement up to 13 AU, with additional VLBI equipment; c) optional laser equipment, which would allow one to improve the range and Doppler measurement. In this baseline concept, the main spacecraft is designed to operate beyond the Saturn orbit, up to 13 AU. It experiences multiple planetary fly-bys at Earth, Mars or Venus, and Jupiter. The cruise and fly-by phases allow the mission to achieve its baseline scientific objectives (i) to iii) in the above list). In addition to this baseline concept, the Odyssey mission proposes the release of the Enigma radio-beacon at Saturn, allowing one to extend the deep space gravity test up to at least 50 AU, while achieving the scientific objective of a mapping of gravity field in the outer Solar System., Comment: revision with Experimental Astronomy Referee comments, correction of typographic errors, add of bibliographic reference, modification of authors list

Published
2007
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2. Quantum Physics Exploring Gravity in the Outer Solar System: The Sagas Project

Author

Wolf, P., Bordé, Ch. J., Clairon, A., Duchayne, L., Landragin, A., Lemonde, P., Santarelli, G., Ertmer, W., Rasel, E., Cataliotti, F. S., Inguscio, M., Tino, G. M., Gill, P., Klein, H., Reynaud, S., Salomon, C., Peik, E., Bertolami, O., Gil, P., Páramos, J., Jentsch, C., Johann, U., Rathke, A., Bouyer, P., Cacciapuoti, L., Izzo, D., De Natale, P., Christophe, B., Touboul, P., Turyshev, S. G., Anderson, J. D., Tobar, M. E., Schmidt-Kaler, F., Vigué, J., Madej, A., Marmet, L., Angonin, M-C., Delva, P., Tourrenc, P., Metris, G., Müller, H., Walsworth, R., Lu, Z. H., Wang, L., Bongs, K., Toncelli, A., Tonelli, M., Dittus, H., Lämmerzahl, C., Galzerano, G., Laporta, P., Laskar, J., Fienga, A., Roques, F., and Sengstock, K.

Subjects
General Relativity and Quantum Cosmology, Astrophysics, Quantum Physics
Abstract

We summarise the scientific and technological aspects of the SAGAS (Search for Anomalous Gravitation using Atomic Sensors) project, submitted to ESA in June 2007 in response to the Cosmic Vision 2015-2025 call for proposals. The proposed mission aims at flying highly sensitive atomic sensors (optical clock, cold atom accelerometer, optical link) on a Solar System escape trajectory in the 2020 to 2030 time-frame. SAGAS has numerous science objectives in fundamental physics and Solar System science, for example numerous tests of general relativity and the exploration of the Kuiper belt. The combination of highly sensitive atomic sensors and of the laser link well adapted for large distances will allow measurements with unprecedented accuracy and on scales never reached before. We present the proposed mission in some detail, with particular emphasis on the science goals and associated measurements., Comment: 39 pages. Submitted in abridged version to Experimental Astronomy

Published
2007
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3. A Mission to Explore the Pioneer Anomaly

Author

The Pioneer Explorer Collaboration, Dittus, H., Turyshev, S. G., Lämmerzahl, C., Theil, S., Foerstner, R., Johann, U., Ertmer, W., Rasel, E., Dachwald, B., Seboldt, W., Hehl, F. W., Kiefer, C., Blome, H. -J., Kunz, J., Giulini, D., Bingham, R., Kent, B., Sumner, T. J., Bertolami, O., Páramos, J., Rosales, J. L., Christophe, B., Foulon, B., Touboul, P., Bouyer, P., Reynaud, S., Brillet, A., Bondu, F., Samain, E., de Matos, C. J., Erd, C., Grenouilleau, J. C., Izzo, D., Rathke, A., Anderson, J. D., Asmar, S. W., Lau, E. L., Nieto, M. M., and Mashhoon, B.

Subjects
General Relativity and Quantum Cosmology
Abstract

The Pioneer 10 and 11 spacecraft yielded the most precise navigation in deep space to date. These spacecraft had exceptional acceleration sensitivity. However, analysis of their radio-metric tracking data has consistently indicated that at heliocentric distances of $\sim 20-70$ astronomical units, the orbit determinations indicated the presence of a small, anomalous, Doppler frequency drift. The drift is a blue-shift, uniformly changing with a rate of $\sim(5.99 \pm 0.01)\times 10^{-9}$ Hz/s, which can be interpreted as a constant sunward acceleration of each particular spacecraft of $a_P = (8.74 \pm 1.33)\times 10^{-10} {\rm m/s^2}$. This signal has become known as the Pioneer anomaly. The inability to explain the anomalous behavior of the Pioneers with conventional physics has contributed to growing discussion about its origin. There is now an increasing number of proposals that attempt to explain the anomaly outside conventional physics. This progress emphasizes the need for a new experiment to explore the detected signal. Furthermore, the recent extensive efforts led to the conclusion that only a dedicated experiment could ultimately determine the nature of the found signal. We discuss the Pioneer anomaly and present the next steps towards an understanding of its origin. We specifically focus on the development of a mission to explore the Pioneer Anomaly in a dedicated experiment conducted in deep space., Comment: 8 pages, 9 figures; invited talk given at the 2005 ESLAB Symposium "Trends in Space Science and Cosmic Vision 2020", 19-21 April 2005, ESTEC, Noordwijk, The Netherlands

Published
2005

9. Radio Science Investigation on a Mercury Orbiter Mission

Author

Anderson, J. D., Turyshev, S. G., Asmar, S. W., Bird, M. K., Konopliv, A. S., Krisher, T. P., Lau, E. L., Schubert, G., and Sjogren, W. L.

Subjects
Astrophysics, General Relativity and Quantum Cosmology
Abstract

We review the results from {\it Mariner 10} regarding Mercury's gravity field and the results from radar ranging regarding topography. We discuss the implications of improving these results, including a determination of the polar component, as well as the opportunity to perform relativistic gravity tests with a future {\it Mercury Orbiter}. With a spacecraft placed in orbit with periherm at 400 km altitude, apherm at 16,800 km, period 13.45 hr and latitude of periherm at +30 deg, one can expect a significant improvement in our knowledge of Mercury's gravity field and geophysical properties. The 2000 Plus mission that evolved during the European Space Agency (ESA) {\it Mercury Orbiter} assessment study can provide a global gravity field complete through the 25th degree and order in spherical harmonics. If after completion of the main mission, the periherm could be lowered to 200 km altitude, the gravity field could be extended to 50th degree and order. We discuss the possibility that a search for a Hermean ionosphere could be performed during the mission phases featuring Earth occultations. Because of its relatively large eccentricity and close proximity to the Sun, Mercury's orbital motion provides one of the best solar-system tests of general relativity. Consequently, we emphasize the number of feasible relativistic gravity tests that can be performed within the context of the parameterized post-Newtonian formalism - a useful framework for testing modern gravitational theories. We pointed out that current results on relativistic precession of Mercury's perihelion are uncertain by 0.5 %, and we discuss the expected improvement using {\it Mercury Orbiter}. We discuss the importance of {\it Mercury Orbiter} for setting limits on a possible time variation in the, Comment: 23 pages, LaTeX, no figures

Published
1995
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15. Measurement of Jupiters asymmetric gravity field

Author

Iess, L., Folkner, W. M., Durante, D., Parisi, M., Kaspi, Y., Galanti, E., Guillot, T., Hubbard, W. B., Stevenson, D. J., Anderson, J. D., Buccino, D. R., Casajus, L. Gomez, Milani, A., Park, R., Racioppa, P., Serra, D., Tortora, P., Zannoni, M., Cao, H., Helled, R., Lunine, J. I., Miguel, Y., Militzer, B., Wahl, S., Connerney, J. E. P., Levin, S. M., and Bolton, S. J.

Subjects
Gravity (Force) -- Measurement, Jupiter (Planet) -- Measurement -- Observations -- Natural history, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): L. Iess (corresponding author) [1]; W. M. Folkner [2]; D. Durante [1]; M. Parisi [2]; Y. Kaspi [3]; E. Galanti [3]; T. Guillot [4]; W. B. Hubbard [5]; D. [...]

Published
2018
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17. Cassini Radio Science

Author

Kliore, A. J., Anderson, J. D., Armstrong, J. W., Asmar, S. W., Hamilton, C. L., Rappaport, N. J., Wahlquist, H. D., Ambrosini, R., Flasar, F. M., French, R. G., Iess, L., Marouf, E. A., Nagy, A. F., and Russell, Christopher T., editor

Published
2004
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18. Asteroid 21 Lutetia: Low Mass, High Density

Author

Pätzold, M., Andert, T. P., Asmar, S. W., Anderson, J. D., Barriot, J.-P., Bird, M. K., Häusler, B., Hahn, M., Tellmann, S., Sierks, H., Lamy, P., and Weiss, B. P.

Published
2011

19. On the Mass of the Kuiper Belt

Author

Teplitz, V. L., Rosenbaum, D. C., Scalise, R. J., Stern, S. A., Anderson, J. D., Kursunoglu, Behram N., editor, Mintz, Stephan L., editor, and Perlmutter, Arnold, editor

Published
1998
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21. Rosetta Radio Science Investigations : Gravity Investigations at Comet P/Wirtanen

Author

Pätzold, M., Neubauer, F. M., Wennmacher, A., Aksnes, K., Anderson, J. D., Asmar, S. W., Tinto, M., Tsurutani, B. T., Yeomans, D. K., Barriot, J.-P., Bird, M. K., Boehnhardt, H., Gill, E., Montenbruck, O., Grün, E., Häusler, B., Ip, W. H., Thomas, N., Marouf, E. A., Rickman, H., Wallis, M. K., Wickramasinghe, N. C., Wytrzyszczak, I. M., editor, Lieske, J. H., editor, and Feldman, R. A., editor

Published
1997
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22. Autoantibodies in Patients with Silicone Implants

Author

Bridges, A. J., Anderson, J. D., Burns, D. E., Kemple, K., Kaplan, J. D., Lorden, T., Compans, R. W., editor, Cooper, M., editor, Koprowski, H., editor, Melchers, F., editor, Oldstone, M., editor, Olsnes, S., editor, Potter, M., editor, Saedler, H., editor, Vogt, P. K., editor, Wagner, H., editor, Potter, Michael, editor, and Rose, Noel R., editor

Published
1996
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35. New Developments in Coatings Technology

Author

P. Zarras, T. Wood, B. Richey, B. C. Benicewicz, Jie He, Dante Battocchi, Alda M. Simões, Dennis E. Tallman, Gordon P. Bierwagen, Anuj Seth, Wim J. van Ooij, P. Zarras, N. Prokopuk, N. Anderson, J. D. Stenger-Smith, Ru Chen, Chunzhao Li, Brian C. Benicewicz, Thomas E. Ready, Johnson Thomas, Seok-bon

Published
2007

40. Voyager Radio Science Observations of Neptune and Triton

Author

Tyler, G. L., Sweetnam, D. N., Anderson, J. D., Borutzki, S. E., Campbell, J. K., Eshleman, V. R., Gresh, D. L., Gurrola, E. M., Hinson, D. P., Kawashima, N., Kursinski, E. R., Levy, G. S., Lindal, G. F., Lyons, J. R., Marouf, E. A., Rosen, P. A., Simpson, R. A., and Wood, G. E.

Published
1989

47. OSS (Outer Solar System): a fundamental and planetary physics mission to Neptune, Triton and the Kuiper Belt

Author

Christophe, B., Spilker, L. J., Anderson, J. D., André, N., Asmar, S. W., Aurnou, J., Banfield, D., Barucci, A., Bertolami, O., Bingham, R., Brown, P., Cecconi, B., Courty, J. -M., Dittus, H., Fletcher, L. N., Foulon, B., Francisco, F., Gil, P. J. S., Glassmeier, K. H., Grundy, W., Hansen, C., Helbert, J., Helled, R., Hussmann, H., Lamine, B., Lämmerzahl, C., Lamy, L., Lehoucq, R., Lenoir, B., Levy, A., Orton, G., Páramos, J., Poncy, J., Postberg, F., Progrebenko, S. V., Reh, K. R., Reynaud, S., Robert, C., Samain, E., Saur, J., Sayanagi, K. M., Schmitz, N., Selig, H., Sohl, F., Spilker, T. R., Srama, R., Stephan, K., Touboul, P., and Wolf, P.

Published
2012
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48. Odyssey: a solar system mission

Author

Christophe, B., Andersen, P. H., Anderson, J. D., Asmar, S., Bério, Ph., Bertolami, O., Bingham, R., Bondu, F., Bouyer, Ph., Bremer, S., Courty, J.-M., Dittus, H., Foulon, B., Gil, P., Johann, U., Jordan, J. F., Kent, B., Lämmerzahl, C., Lévy, A., Métris, G., Olsen, O., Pàramos, J., Prestage, J. D., Progrebenko, S. V., Rasel, E., Rathke, A., Reynaud, S., Rievers, B., Samain, E., Sumner, T. J., Theil, S., Touboul, P., Turyshev, S., Vrancken, P., Wolf, P., and Yu, N.

Published
2009
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49. Matter wave explorer of gravity (MWXG)

Author

Ertmer, W., Schubert, C., Wendrich, T., Gilowski, M., Zaiser, M., Zoest, T. v., Rasel, E., Bordé, Ch. J., Clairon, A., Landragin, Laurent, P., Lemonde, P., Santarelli, G., Schleich, W., Cataliotti, F. S., Inguscio, M., Poli, N., Sorrentino, F., Modugno, C., Tino, G. M., Gill, P., Klein, H., Margolis, H., Reynaud, S., Salomon, C., Lambrecht, A., Peik, E., Jentsch, C., Johann, U., Rathke, A., Bouyer, P., Cacciapuoti, L., De Natale, P., Christophe, B., Foulon, B., Touboul, P., Maleki, L., Yu, N., Turyshev, S. G., Anderson, J. D., Schmidt-Kaler, F., Walser, R., Vigué, J., Büchner, M., Angonin, M.-C., Delva, P., Tourrenc, P., Bingham, R., Kent, B., Wicht, A., Wang, L. J., Bongs, K., Dittus, Hj., Lämmerzahl, C., Theil, S., Sengstock, K., Peters, A., Müller, T., Arndt, M., Iess, L., Bondu, F., Brillet, A., Samain, E., Chiofalo, M. L., Levi, F., and Calonico, D.

Published
2009
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