Keywords:
Physics
;
Geophysics
;
Gravitation
;
Observations, Astronomical
;
Astronomy Observations
;
Astrophysics
;
Physics
;
Physical geography
;
Astronomy
;
Astrophysics
;
Relativity (Physics)
;
Physics
;
Relativity and Cosmology
;
Astronomy
;
Geophysics/Geodesy
;
Astrophysics
Description / Table of Contents:
Gravitational lensing -- The general relativistic N-body problem -- Observable relativistic effects in the solar system -- New results for relativistic parameters from the analysis of llr measurements -- Very-Long-Baseline Interferometry in astro-, geo-, and gravitational physics -- A gradiometer experiment to detect the gravitomagnetic field of the earth -- The international atomic time and the PTB's clocks -- Gravity-wave astrophysics -- The GEO-project a long-baseline laser interferometer for the detection of gravitational waves -- The optics of an interferometric gravitational-wave antenna -- Mechanical aspects in interferometric gravity wave detectors -- Fermion and Boson stars -- Black holes with hair -- Gravitational fields of rapidly rotating neutron stars: Theoretical foundation -- Gravitational fields of rapidly rotating neutron stars: Numerical results -- A new laboratory experiment for testing Newton's gravitational law -- Matter wave interferometry and why quantum objects are fundamental for establishing a gravitational theory
Type of Medium:
Online Resource
Pages:
1 Online-Ressource (VIII, 412 p. 50 illus)
Edition:
Springer eBook Collection. Physics and Astronomy
ISBN:
9783540474838
,
9783540561804
Series Statement:
Lecture Notes in Physics 410
URL:
http://dx.doi.org/10.1007/3-540-56180-3
DOI:
10.1007/3-540-56180-3
Language:
English
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