Journal ArticleDOI
Rotation sensing with a dual atom-interferometer Sagnac gyroscope
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TLDR
In this article, the Sagnac effect was applied to the SAGA-effect interferometer gyroscope with a short-term rotation-rate sensitivity of 6×10−10 rad s−1 over 1 s integration.Abstract:
We reports improvements to our Sagnac effect matter-wave interferometer gyroscope. This device now has a short-term rotation-rate sensitivity of 6×10−10 rad s−1 over 1 s of integration, which is the best publicly reported value to date. Stimulated Raman transitions are used to coherently manipulate atoms from counterpropagating thermal beams, forming two interferometers with opposite rotation phase shifts, allowing rotation to be distinguished from acceleration and laser arbitrary phase. Furthermore, electronically compensating the rotation-induced Doppler shifts of the Raman lasers allows operation at an effective zero rotation rate, improving sensitivity and facilitating sensitive lock-in detection readout techniques. Long-term stability is promising but not yet fully characterized. Potential applications include inertial navigation, geophysical studies and tests of general relativity.read more
Citations
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Quantum sensing
Abstract: "Quantum sensing" describes the use of a quantum system, quantum properties or quantum phenomena to perform a measurement of a physical quantity Historical examples of quantum sensors include magnetometers based on superconducting quantum interference devices and atomic vapors, or atomic clocks More recently, quantum sensing has become a distinct and rapidly growing branch of research within the area of quantum science and technology, with the most common platforms being spin qubits, trapped ions and flux qubits The field is expected to provide new opportunities - especially with regard to high sensitivity and precision - in applied physics and other areas of science In this review, we provide an introduction to the basic principles, methods and concepts of quantum sensing from the viewpoint of the interested experimentalist
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A quantum Newton's cradle
TL;DR: The preparation of out-of-equilibrium arrays of trapped one-dimensional Bose gases, each containing from 40 to 250 87Rb atoms, which do not noticeably equilibrate even after thousands of collisions are reported.
Journal ArticleDOI
Optics and interferometry with atoms and molecules
TL;DR: The development of wave optics for light brought many new insights into our understanding of physics, driven by fundamental experiments like the ones by Young, Fizeau, Michelson-Morley and others as mentioned in this paper.
Journal Article
A quantum Newton's cradle
TL;DR: In this paper, the authors show that a homogeneous 1D Bose gas with point-like collisional interactions is integrable, and that it is possible to construct a system with many degrees of freedom that does not reach thermal equilibrium even after thousands of collisions.
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Precision measurement of the Newtonian gravitational constant using cold atoms
TL;DR: The precise determination of G is reported using laser-cooled atoms and quantum interferometry to identify the systematic errors that have proved elusive in previous experiments, thus improving the confidence in the value of G.
References
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Book
Quantum Mechanics and Path Integrals
TL;DR: Au sommaire as discussed by the authors developed the concepts of quantum mechanics with special examples and developed the perturbation method in quantum mechanics and the variational method for probability problems in quantum physics.
Journal ArticleDOI
Atomic interferometry using stimulated Raman transitions
Mark A. Kasevich,Steven Chu +1 more
TL;DR: The mechanical effects of stimulated Raman transitions on atoms have been used to demonstrate a matter-wave interferometer with laser-cooled sodium atoms that has observed interference for wave packets that have been separated by as much as 2.4 mm.
Journal Article
Über den Einfluß der Eigenrotation der Zentralkörper auf die Bewegung der Planeten und Monde nach der Einsteinschen Gravitationstheorie
Josef Lense,Hans Thirring +1 more
Journal ArticleDOI
Precision Rotation Measurements with an Atom Interferometer Gyroscope
TL;DR: In this article, a Sagnac-effect atom interferometer gyroscope using stimulated Raman transitions was used to coherently manipulate atomic wave packets, measured the Earth's rotation rate and demonstrated a short-term sensitivity to rotations of $2.
Journal ArticleDOI
Optical Ramsey spectroscopy in a rotating frame: Sagnac effect in a matter-wave interferometer
TL;DR: A calcium atomic beam excited in an optical Ramsey geometry was rotated about an axis perpendicular to the plane defined by the laser beams and the atomic beam and a frequency shift of the Ramsey fringes of several kHz has been measured.