Klioner, 2018 - Google Patents
Gaia-like astrometry and gravitational wavesKlioner, 2018
View PDF- Document ID
- 11105149385930114955
- Author
- Klioner S
- Publication year
- Publication venue
- Classical and Quantum Gravity
External Links
Snippet
This paper discusses the effects of gravitational waves on high-accuracy astrometric observations such as those delivered by Gaia. Depending on the frequency of gravitational waves, two regimes for the influence of gravitational waves on astrometric data are …
- 230000000694 effects 0 abstract description 31
Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C21/00—Navigation; Navigational instruments not provided for in preceding groups
- G01C21/20—Instruments for performing navigational calculations
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Klioner | Gaia-like astrometry and gravitational waves | |
| Völkel et al. | EHT tests of the strong-field regime of general relativity | |
| Hofmann et al. | Relativistic tests with lunar laser ranging | |
| Torres et al. | VLBA determination of the distance to nearby star-forming regions. III. HP Tau/G2 and the three-dimensional structure of Taurus | |
| Kemmer et al. | Discovery of a hot, transiting, Earth-sized planet and a second temperate, non-transiting planet around the M4 dwarf GJ 3473 (TOI-488) | |
| Wright et al. | Barycentric corrections at 1 cm s-1 for precise doppler velocities | |
| De Rosa et al. | A significant mutual inclination between the planets within the π Mensae system | |
| Hees et al. | Radioscience simulations in general relativity and in alternative theories of gravity | |
| Delva et al. | Test of the gravitational redshift with stable clocks in eccentric orbits: application to Galileo satellites 5 and 6 | |
| Hikage et al. | Where are the Luminous Red Galaxies (LRGs)? Using correlation measurements and lensing to relate LRGs to dark matter haloes | |
| Vallisneri et al. | Non-sky-averaged sensitivity curves for space-based gravitational-wave observatories | |
| Massey et al. | Dark matter dynamics in Abell 3827: new data consistent with standard cold dark matter | |
| Muterspaugh et al. | Masses, luminosities, and orbital coplanarities of the μ Orionis quadruple-star system from phases differential astrometry | |
| Iorio et al. | On the post-Keplerian corrections to the orbital periods of a two-body system and their application to the Galactic Center | |
| Martinez et al. | Dynamical surface imaging of λ andromedae | |
| Sozzetti et al. | Narrow‐Angle Astrometry with the Space Interferometry Mission: The Search for Extrasolar Planets. I. Detection and Characterization of Single Planets | |
| Yagi | Gravitational wave observations of galactic intermediate-mass black hole binaries with DECIGO path finder | |
| Zschocke | Light propagation in 2PN approximation in the field of one moving monopole II. Boundary value problem | |
| Crosta et al. | The ray tracing analytical solution within the RAMOD framework. The case of a Gaia-like observer | |
| Qin et al. | Relativistic tidal effects on clock-comparison experiments | |
| Mora et al. | Gaia: focus, straylight and basic angle | |
| Dodson et al. | The application of multiview methods for high-precision astrometric space VLBI at low frequencies | |
| Feng et al. | PEXO: a global modeling framework for nanosecond timing, microarcsecond astrometry, and μm s− 1 radial velocities | |
| Jelínek et al. | Influence of the tilt angle on the bow shock shape and location | |
| Zhai et al. | Role of Topocentric Parallax in Near-Earth Object Initial Orbit Determination |