Your search keyword '"Souichi Telada"' showing total 4 results

1. A 100-m Fabry–Pérot Cavity with Automatic Alignment Controls for Long-Term Observations of Earth’s Strain

Author

Akiteru Takamori, Akito Araya, Wataru Morii, Souichi Telada, Takashi Uchiyama, and Masatake Ohashi

Subjects

absolute distance determination, earthquake monitoring, laser strainmeter, optical cavity alignment, Technology

Abstract

We have developed and built a highly accurate laser strainmeter for geophysical observations. It features the precise length measurement of a 100-m optical cavity with reference to a stable quantum standard. Unlike conventional laser strainmeters based on simple Michelson interferometers that require uninterrupted fringe counting to track the evolution of ground deformations, this instrument is able to determine the absolute length of a cavity at any given time. The instrument offers advantage in covering a variety of geophysical events, ranging from instantaneous earthquakes to crustal deformations associated with tectonic strain changes that persist over time. An automatic alignment control and an autonomous relocking system have been developed to realize stable performance and maximize observation times. It was installed in a deep underground site at the Kamioka mine in Japan, and an effective resolution of 2 × (10−8 − 10−7) m was achieved. The regular tidal deformations and co-seismic strain changes were in good agreement with those from a theoretical model and a co-located conventional laser strainmeter. Only the new instrument was able to record large strain steps caused by a nearby large earthquake because of its capability of absolute length determination.

Published

2014

2. Crustal Strain Observation Using a Two-Color Interferometer with Accurate Correction of Refractive Index of Air

Author

Souichi Telada, Akito Araya, and Akiteru Takamori

Subjects

two-color interferometer, heterodyne interferometer, refractive index of air, distance measurement, strain observation, Technology

Abstract

A highly accurate two-color interferometer with automatic correction of the refractive index of air was developed for crustal strain observation. The two-color interferometer, which can measure a geometrical distance of approximately 70 m, with a relative resolution of 2 × 10−9, clearly detected a change in strain due to earth tides in spite of optical measurement in air. Moreover, a large strain quake due to an earthquake could be observed without disturbing the measurement. We demonstrated the advantages of the two-color interferometer in air for geodetic observation.

Published

2014

3. A 100-m Fabry–Pérot Cavity with Automatic Alignment Controls for Long-Term Observations of Earth’s Strain

Author

Akito Araya, Souichi Telada, Takashi Uchiyama, Akiteru Takamori, Masatake Ohashi, and W. Morii

Subjects

business.industry, lcsh:T, optical cavity alignment, earthquake monitoring, laser strainmeter, Ranging, Strainmeter, Geodesy, Laser, lcsh:Technology, law.invention, Physics::Geophysics, Tectonics, Length measurement, Optics, law, Optical cavity, Astronomical interferometer, absolute distance determination, business, Geology, Fabry–Pérot interferometer

Abstract

We have developed and built a highly accurate laser strainmeter for geophysical observations. It features the precise length measurement of a 100-m optical cavity with reference to a stable quantum standard. Unlike conventional laser strainmeters based on simple Michelson interferometers that require uninterrupted fringe counting to track the evolution of ground deformations, this instrument is able to determine the absolute length of a cavity at any given time. The instrument offers advantage in covering a variety of geophysical events, ranging from instantaneous earthquakes to crustal deformations associated with tectonic strain changes that persist over time. An automatic alignment control and an autonomous relocking system have been developed to realize stable performance and maximize observation times. It was installed in a deep underground site at the Kamioka mine in Japan, and an effective resolution of 2 × (10−8 − 10−7) m was achieved. The regular tidal deformations and co-seismic strain changes were in good agreement with those from a theoretical model and a co-located conventional laser strainmeter. Only the new instrument was able to record large strain steps caused by a nearby large earthquake because of its capability of absolute length determination.

Published

2014

4. Crustal Strain Observation Using a Two-Color Interferometer with Accurate Correction of Refractive Index of Air

Author

Akito Araya, Akiteru Takamori, and Souichi Telada

Subjects

Quake (natural phenomenon), Physics, Strain (chemistry), business.industry, lcsh:T, Resolution (electron density), two-color interferometer, Geodetic datum, refractive index of air, Geodesy, lcsh:Technology, Interferometry, Distance measurement, Optics, strain observation, Large strain, heterodyne interferometer, distance measurement, business, Refractive index

Abstract

A highly accurate two-color interferometer with automatic correction of the refractive index of air was developed for crustal strain observation. The two-color interferometer, which can measure a geometrical distance of approximately 70 m, with a relative resolution of 2 × 10−9, clearly detected a change in strain due to earth tides in spite of optical measurement in air. Moreover, a large strain quake due to an earthquake could be observed without disturbing the measurement. We demonstrated the advantages of the two-color interferometer in air for geodetic observation.

Published

2014