Yun-Jhih Chen scite author profile

Yun-Jhih Chen

3Publications

42Citation Statements Received

119Citation Statements Given

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119

Affiliations

National Institute of Standards and Technology, University of Colorado Boulder

Publications

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Single-Source Multiaxis Cold-Atom Interferometer in a Centimeter-Scale Cell

et al. 2019

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Using the technique of point source atom interferometry (PSI), we characterize the sensitivity of a multi-axis gyroscope based on free-space Raman interrogation of a single source of cold atoms in a glass vacuum cell. The instrument simultaneously measures the acceleration in the direction of the Raman laser beams and the projection of the rotation vector onto the plane perpendicular to that direction. The sensitivities for the magnitude and direction of the rotation vector measurement are 0.033 • /s and 0.27 • with one second averaging time, respectively. The fractional acceleration sensitivity δg/g is 1.6 × 10 −5 / √ Hz. The sensitivity could be improved by increasing the Raman interrogation time, allowing the cold-atom cloud to expand further, correcting the fluctuations in the initial cloud shape, and reducing sources of technical noise. The PSI technique resolves a rotation vector in a plane by measuring a phase gradient. This two-dimensional rotation sensitivity may be specifically important for applications such as tracking the precession of a rotation vector and gyrocompassing.

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Robust inertial sensing with point-source atom interferometry for interferograms spanning a partial period

Chen¹,

Hansen²,

Shuker³

et al. 2020

Opt. Express

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Point source atom interferometry (PSI) uses the velocity distribution in a cold atom cloud to simultaneously measure one axis of acceleration and two axes of rotation from the spatial distribution of interferometer phase in an expanded cloud of atoms. Previously, the interferometer phase has been found from the phase, orientation, and period of the resulting spatial atomic interference fringe images. For practical applications in inertial sensing and precision measurement, it is important to be able to measure a wide range of system rotation rates, corresponding to interferograms with far less than one full interference fringe to very many fringes. Interferogram analysis techniques based on image processing used previously for PSI are challenging to implement for low rotation rates that generate less than one full interference fringe across the cloud. We introduce a new experimental method that is closely related to optical phase-shifting interferometry that is effective in extracting rotation values from signals consisting of fractional fringes as well as many fringes without prior knowledge of the rotation rate. The method finds the interferometer phase for each pixel in the image from four interferograms, each with a controlled Raman laser phase shift, to reconstruct the underlying atomic interferometer phase map without image processing.

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Inertial sensing with point-source atom interferometry for interferograms with less than one fringe

Chen

Hansen

Shuker

et al. 2021

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Yun-Jhih Chen

Single-Source Multiaxis Cold-Atom Interferometer in a Centimeter-Scale Cell

Robust inertial sensing with point-source atom interferometry for interferograms spanning a partial period

Inertial sensing with point-source atom interferometry for interferograms with less than one fringe

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