Active Resonant Antennas for Gravitational Radiation
スポンサーリンク
概要
- 論文の詳細を見る
Nature of a resonant system consisting of two masses connected with an electromechanical feedback device is examined, and a possibility of constructing a low-noise antenna for gravitational radiation based on this system is discussed. It is shown that antennas of this kind could have a smaller thermal noise compared with solid-body antennas, while the transducer noise is comparable for both of them. The proposed system would extend the frequency region of resonant detectors below 10 Hz.
- 社団法人応用物理学会の論文
- 1979-01-05
著者
-
Tsubono Kimio
Department Of Physics The University Of Tokyo
-
HIRAKAWA Hiromasa
Department of Physics, The University of Tokyo
-
Oide Katsunobu
Department Of Physics The University Of Tokyo
-
Hirakawa Hiromasa
Department Of Physics Faculty Of Science University Of Tokyo
-
OIDE Katsunobu
Department of Physics, The University of Tokyo
関連論文
- Theory of Antennas for Gravitational Radiation
- Gravitational Radiation Detectors at 145 Hz
- Microwave Spectrum of Formaldehyde : I. K-type Doubling Spectra
- Microwave Zeeman Effect of Formaldehyde
- l-type Doubling Spectra of HCN and DCN
- Microwave Spectra of Formaldehyde -d_1 -d_2
- Transmission Electron Spin Resonance in Copper
- Microwave Skin Effect of Thin Films in a Magnetic Field
- Microwave Spectrum of BrCN and Dependence of Quadrupole Coupling Constant on the Vibrational State
- Microwave Spectrum of Hydrazine
- Electromechanical Tuning of Resonant Antennas for Gravitational Radiation
- Artificial Cold Resistors
- Electronic Cooling of Resistors
- Dynamic Polarization of Deuterons in Individual Sites of Deuterated LMN Crystal
- Rotating Superconductors
- Search for Gravitational Waves
- Search for Background Gravitational Radiation
- Characteristics of Low Frequency Cryogenic Antennas for Gravitational Radiation
- Active Resonant Antennas for Gravitational Radiation
- Dependence of Quadrupole Coupling Constant on the Vibrational State in ICN Molecule
- Low Noise Oscillator Stabilized by Mechanically Modulated Cavity
- Parametric Transducer for Gravitational Radiation Detector
- Cavity Transducer for Subatomic Mechanical Vibration
- l-Type Doubling Spectra of HCN and DCN in the SHF Region
- Microwave Spectra of Formaldehyde and Methylamine in the SHF Region
- Skin Effect in a Magnetic Field
- Laser Interferometer Instrumented in a Disk Antenna for Gravitational Radiation
- Measurement of Gravitational Interaction at Small Distances
- Frequency Modulation Method for a He-Ne Laser Using the Mechanical Resonance of the Laser Cavity
- Direct Measurement of RF Field Using Diode
- Electric Current due to γ-Ray Irradiation
- Theory of the Detection of Background Gravitational Radiation
- Radiation from Moving Charge Train
- Electromagnetic Field of Traveling Charge in Beam Ducts
- Pulse Shortening Effect in Linear Accelerators
- Calibration of Vibration Transducers
- Calibration of Gravitational Radiation Antenna by Dynamic Newton Field
- rf-Transducer for Mechanical Vibration
- Shot-Noise Limited Low-Frequency Intensity Noise of a Nd:YAG Laser
- Dynamic Null Experiment to Test the Law of Gravitation
- Local Field and Gravitational Radiation Experiments
- Dispersion of Gravitational Waves
- Dynamic Polarization of Deuterons in d-LMN Crystal
- The Gravitational Field of a Rotating Bar