GRAIL, an omni-directional gravitational wave detector

D. v. Albada; W. v. Amersfoort; H. Boer Rookhuizen; J. Flokstra; G.; Frossati; H. v.d. Graaf; A. Heijboer; G. Heijboer; E. v.d. Heuvel; J.W. v.; Holten; G.J. Nooren; J. Oberski; H. Rogalla; A. de Waele; P. de Witt Huberts

arXiv:gr-qc/9804073·gr-qc·May 23, 2007

GRAIL, an omni-directional gravitational wave detector

D. v. Albada, W. v. Amersfoort, H. Boer Rookhuizen, J. Flokstra, G., Frossati, H. v.d. Graaf, A. Heijboer, G. Heijboer, E. v.d. Heuvel, J.W. v., Holten, G.J. Nooren, J. Oberski, H. Rogalla, A. de Waele, P. de Witt Huberts

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TL;DR

GRAIL introduces a cryogenic spherical resonant-mass detector capable of omni-directional gravitational wave detection, enhancing the ability to observe gravitational waves from all directions with high sensitivity.

Contribution

This paper presents the design and proposal of a novel cryogenic spherical detector that is omni-directional, improving gravitational wave detection capabilities over existing directional detectors.

Findings

01

Design of a cryogenic spherical resonant-mass detector

02

Omni-directional sensitivity to gravitational waves

03

Potential for high-precision gravitational wave observations

Abstract

A cryogenic spherical and omni-directional resonant-mass detector proposed by the GRAIL collaboration is described.

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Taxonomy

TopicsPulsars and Gravitational Waves Research · Geophysics and Sensor Technology · Seismology and Earthquake Studies