TY - JOUR
T1 - ROMY
T2 - A multicomponent ring laser for geodesy and geophysics
AU - Igel, Heiner
AU - Schreiber, Karl Ulrich
AU - Gebauer, André
AU - Bernauer, Felix
AU - Egdorf, Sven
AU - Simonelli, Andrea
AU - Lin, Chin Jen
AU - Wassermann, Joachim
AU - Donner, Stefanie
AU - Hadziioannou, Céline
AU - Yuan, Shihao
AU - Brotzer, Andreas
AU - Kodet, Jan
AU - Tanimoto, Toshiro
AU - Hugentobler, Urs
AU - Wells, Jon Paul R.
N1 - Publisher Copyright:
© 2021 The Author(s) 2021.
PY - 2021/4/1
Y1 - 2021/4/1
N2 - Single-component ring lasers have provided high-resolution observations of Earth's rotation rate as well as local earthquake- or otherwise-induced rotational ground motions. Here, we present the design, construction and operational aspects of ROMY, a four-component, tetrahedral-shaped ring laser installed at the Geophysical Observatory Fürstenfeldbruck near Munich, Germany. Four equilateral, triangular-shaped ring lasers with 12 m side length provide rotational motions that can be combined to construct the complete vector of Earth's rotation from a point measurement with very high resolution. Combined with a classic broad-band seismometer, we obtain the most accurate 6 degree-of-freedom ground motion measurement system to date, enabling local and teleseismic observations as well as the analysis of ocean-generated Love and Rayleigh waves. The specific design and construction details are discussed as are the resulting consequences for permanent observations. We present seismic observations of local, regional and global earthquakes as well as seasonal variations of ocean-generated rotation noise. The current resolution of polar motion is discussed and strategies how to further improve long-term stability of the multicomponent ring laser system are presented.
AB - Single-component ring lasers have provided high-resolution observations of Earth's rotation rate as well as local earthquake- or otherwise-induced rotational ground motions. Here, we present the design, construction and operational aspects of ROMY, a four-component, tetrahedral-shaped ring laser installed at the Geophysical Observatory Fürstenfeldbruck near Munich, Germany. Four equilateral, triangular-shaped ring lasers with 12 m side length provide rotational motions that can be combined to construct the complete vector of Earth's rotation from a point measurement with very high resolution. Combined with a classic broad-band seismometer, we obtain the most accurate 6 degree-of-freedom ground motion measurement system to date, enabling local and teleseismic observations as well as the analysis of ocean-generated Love and Rayleigh waves. The specific design and construction details are discussed as are the resulting consequences for permanent observations. We present seismic observations of local, regional and global earthquakes as well as seasonal variations of ocean-generated rotation noise. The current resolution of polar motion is discussed and strategies how to further improve long-term stability of the multicomponent ring laser system are presented.
KW - Earth rotation variations
KW - Earthquake ground motions
KW - Geodetic instrumentation
KW - Rotational seismology
KW - Seismic instruments
KW - Seismic noise
UR - http://www.scopus.com/inward/record.url?scp=85121127812&partnerID=8YFLogxK
U2 - 10.1093/gji/ggaa614
DO - 10.1093/gji/ggaa614
M3 - Article
AN - SCOPUS:85121127812
SN - 0956-540X
VL - 225
SP - 684
EP - 698
JO - Geophysical Journal International
JF - Geophysical Journal International
IS - 1
ER -