The phase quadrature measurement method is capable of measuring nonlinearity in heterodyne laser interferometers with picometer accuracy whereas it cannot be applied in the new kind of heterodyne interferometers with bidirectional Doppler frequency shift especially in the condition of non-uniform motion of the target. To solve this problem, a novel measurement method of nonlinearity is proposed in this paper. By employing double-channel quadrature demodulation and substituting the external reference signal with internal ones, this method is free from the type of heterodyne laser interferometer and the motion state of the target. For phase demodulation, the phase differential algorithm is utilized to improve the computing efficiency. Experim...
The mission to detect gravitational wave in space requires a not only sophisticated but also ultra-p...
[[abstract]]©1998 OSA - The periodic nonlinearity that arises from nonideal laser sources and imperf...
[[abstract]]©1999 OSA - A new, to our knowledge, heterodyne interferometer for differential displace...
A method for measuring the nonlinearity of laser interferometer using optical frequency tuning techn...
We present a new digital phase measuring scheme for optical heterodyne interferometry, hich provides...
This paper describes methods for dynamic measurement and correction of laser interferometer periodic...
Laser interferometer systems are known for their high resolution, and especially for their high rang...
This paper describes a novel heterodyne laser interferometer with no significant periodic nonlineari...
A high resolution heterodyne laser interferometer without periodic nonlinearity for linear displacem...
A passive homodyne phase demodulation technique based on a linear-fitting trigonometric-identity-tra...
In this paper the issues of object movements measurement by the heterodyne method have been consider...
Nonlinear errors in single frequency interferometers are mainly caused by inaccuracies in quadrature...
[[abstract]]©1996 IOP - The periodical nonlinearity of an interferometer usually ranges from sub-nan...
The non-linearities in a heterodyne laser interferometer system occurring from the phase measurement...
[[abstract]]A laser interferometer system based on three design principles, the heterodyne frequency...
The mission to detect gravitational wave in space requires a not only sophisticated but also ultra-p...
[[abstract]]©1998 OSA - The periodic nonlinearity that arises from nonideal laser sources and imperf...
[[abstract]]©1999 OSA - A new, to our knowledge, heterodyne interferometer for differential displace...
A method for measuring the nonlinearity of laser interferometer using optical frequency tuning techn...
We present a new digital phase measuring scheme for optical heterodyne interferometry, hich provides...
This paper describes methods for dynamic measurement and correction of laser interferometer periodic...
Laser interferometer systems are known for their high resolution, and especially for their high rang...
This paper describes a novel heterodyne laser interferometer with no significant periodic nonlineari...
A high resolution heterodyne laser interferometer without periodic nonlinearity for linear displacem...
A passive homodyne phase demodulation technique based on a linear-fitting trigonometric-identity-tra...
In this paper the issues of object movements measurement by the heterodyne method have been consider...
Nonlinear errors in single frequency interferometers are mainly caused by inaccuracies in quadrature...
[[abstract]]©1996 IOP - The periodical nonlinearity of an interferometer usually ranges from sub-nan...
The non-linearities in a heterodyne laser interferometer system occurring from the phase measurement...
[[abstract]]A laser interferometer system based on three design principles, the heterodyne frequency...
The mission to detect gravitational wave in space requires a not only sophisticated but also ultra-p...
[[abstract]]©1998 OSA - The periodic nonlinearity that arises from nonideal laser sources and imperf...
[[abstract]]©1999 OSA - A new, to our knowledge, heterodyne interferometer for differential displace...