Add to ORKGThe results of an experimental demonstration of a benchtop Michelson interferometer with a variable-reflectivity signal mirror are presented. This variable reflectivity is achieved by employment of a second Michelson interferometer. The results are presented in the form of the frequency responses obtained from this configuration with a signal laser injection method. It is shown that the frequency response can be dynamically tuned with independent peak frequency and bandwidth control. Such a configuration gives a tunable frequency response and has an application as a flexible gravitational-wave detector
We report on our prototype experiment that uses a 4-m detuned resonant sideband extraction interfero...
Dual recycling is the combination of signal recycling and power recycling; both optical techniques i...
Dual recycling is the combination of signal recycling and power recycling; both optical techniques i...
Future gravitational wave detectors will include some form of signal mirror in order to alter the si...
Abstract. Future gravitational wave detectors will include some form of signal mirror in order to al...
Currently, the data acquisition of an international network of large, laser-interferometric gravitat...
Interferometric gravitational wave detectors are expected to be limited by shot noise at some freque...
We report on the experimental combination of three advanced interferometer techniques for gravitatio...
We propose a new method of operating laser interferometric gravitational-wave detectors when observi...
Dual recycling is an advanced optical technique to enhance the signal-to-noise ratio of laser interf...
The techniques of power recycling and signal recycling have proven as key concepts to increase the s...
Several ground-based large-scale and medium-scale laser interferometers (LIGO, VIRGO, GEO600 and TAM...
We describe and verify the dynamic behavior of a novel technique to optimize and actively control th...
The techniques of power recycling and signal recycling have proven as key concepts to increase the s...
The advanced scheme of “signal recycling” is to be used in the British-German GEO 600 project, in ad...
We report on our prototype experiment that uses a 4-m detuned resonant sideband extraction interfero...
Dual recycling is the combination of signal recycling and power recycling; both optical techniques i...
Dual recycling is the combination of signal recycling and power recycling; both optical techniques i...
Future gravitational wave detectors will include some form of signal mirror in order to alter the si...
Abstract. Future gravitational wave detectors will include some form of signal mirror in order to al...
Currently, the data acquisition of an international network of large, laser-interferometric gravitat...
Interferometric gravitational wave detectors are expected to be limited by shot noise at some freque...
We report on the experimental combination of three advanced interferometer techniques for gravitatio...
We propose a new method of operating laser interferometric gravitational-wave detectors when observi...
Dual recycling is an advanced optical technique to enhance the signal-to-noise ratio of laser interf...
The techniques of power recycling and signal recycling have proven as key concepts to increase the s...
Several ground-based large-scale and medium-scale laser interferometers (LIGO, VIRGO, GEO600 and TAM...
We describe and verify the dynamic behavior of a novel technique to optimize and actively control th...
The techniques of power recycling and signal recycling have proven as key concepts to increase the s...
The advanced scheme of “signal recycling” is to be used in the British-German GEO 600 project, in ad...
We report on our prototype experiment that uses a 4-m detuned resonant sideband extraction interfero...
Dual recycling is the combination of signal recycling and power recycling; both optical techniques i...
Dual recycling is the combination of signal recycling and power recycling; both optical techniques i...