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相关论文: An Atom Michelson Interferometer on a Chip Using a…

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A Michelson interferometer using Bose-Einstein condensates is demonstrated with coherence times of up to 44 ms and arm separations up to 0.18 mm. This arm separation is larger than that observed for any previous atom interferometer. The…

其他凝聚态物理 · 物理学 2009-11-11 O. Garcia , B. Deissler , K. J. Hughes , J. M. Reeves , C. A. Sackett

We have fabricated and tested an atom chip that operates as a matter wave interferometer. In this communication we describe the fabrication of the chip by ion-beam milling of gold evaporated onto a silicon substrate. We present data on the…

We present experiments with Bose-Einstein condensates on a combined atom chip. The combined structure consists of a large-scale "carrier chip" and smaller "atom-optics chips", containing micron-sized elements. This allows us to work with…

其他凝聚态物理 · 物理学 2009-11-11 A. Guenther , M. Kemmler , S. Kraft , C. J. Vale , C. Zimmermann , J. Fortagh

A trapped-atom interferometer was demonstrated using gaseous Bose-Einstein condensates coherently split by deforming an optical single-well potential into a double-well potential. The relative phase between the two condensates was…

软凝聚态物质 · 物理学 2009-11-10 Y. Shin , M. Saba , T. A. Pasquini , W. Ketterle , D. E. Pritchard , A. E. Leanhardt

The recombination of two split Bose-Einstein condensates on an atom chip is shown to result in heating which depends on the relative phase of the two condensates. This heating reduces the number of condensate atoms between 10 and 40% and…

其他凝聚态物理 · 物理学 2007-05-23 G. -B. Jo , J. -H. Choi , C. A. Christensen , T. A. Pasquini , Y. -R. Lee , W. Ketterle , D. E. Pritchard

A trapped atom interferometer involving state-selective adiabatic potentials with two microwave frequencies on a chip is proposed. We show that this configuration provides a way to achieve a high degree of symmetry between the two arms of…

Cold-atom interferometry is a powerful tool for high-precision measurements of the quantum properties of atoms, many-body interactions and gravity. Further enhancement of sensitivity and reduction of complexity of these devices are crucial…

原子物理 · 物理学 2012-02-23 Jovana Petrovic , Ivan Herrera , Pietro Lombardi , Francesco S. Cataliotti

Atom interferometers covering macroscopic domains of space-time are a spectacular manifestation of the wave nature of matter. Due to their unique coherence properties, Bose-Einstein condensates are ideal sources for an atom interferometer…

Matter-wave interference experiments enable us to study matter at its most basic, quantum level and form the basis of high-precision sensors for applications such as inertial and gravitational field sensing. Success in both of these…

We use supercomputer simulations to show that inter-atomic interactions can strongly affect the phase evolution of Bose-Einstein condensates that are diffracted from atom chips, thereby explaining recent experiments. Interactions broaden…

其他凝聚态物理 · 物理学 2009-11-13 T. E. Judd , R. G. Scott , T. M. Fromhold

In this paper we update the existing schemes for computation of atom-interferometric signal in single-atom interferometers to interferometry with dense Bose-condensed atomic samples. Using the theory developed we explain the fringe contrast…

其他凝聚态物理 · 物理学 2007-05-23 Maxim Olshanii , Vanja Dunjko

We experimentally study the diffraction of a Bose-Einstein condensate from a magnetic lattice, realized by a set of 372 parallel gold conductors which are micro fabricated on a silicon substrate. The conductors generate a periodic potential…

其他凝聚态物理 · 物理学 2015-06-25 A. Guenther , S. Kraft , M. Kemmler , D. Koelle , R. Kleiner , C. Zimmermann , J. Fortagh

We construct a Mach-Zehnder interferometer using Bose-Einstein condensed rubidium atoms and optical Bragg diffraction. In contrast to interferometers based on normal diffraction, where only a small percentage of the atoms contribute to the…

凝聚态物理 · 物理学 2009-10-31 Yoshio Torii , Yoichi Suzuki , Mikio Kozuma , Takahiro Kuga , Lu Deng , E. W. Hagley

We have realized an interferometer using a thermal cloud of magnetically trapped rubidium 87 atoms on a chip. The interferometer resembles a Ramsey interferometer with a state selective spatial splitting of the two internal states as…

原子物理 · 物理学 2026-04-16 B. Wirtschafter , C. I. Westbrook , M. Dupont-Nivet

We demonstrate the operation of an atom interferometer based on a weakly interacting Bose-Einstein condensate. We strongly reduce the interaction induced decoherence that usually limits interferometers based on trapped condensates by tuning…

We use a small atomic Bose-Einstein condensate as an interferometric scanning probe to map out a microwave field near a chip surface with a few micrometers resolution. Using entanglement between the atoms we overcome the standard quantum…

量子物理 · 物理学 2013-10-30 Caspar F. Ockeloen , Roman Schmied , Max F. Riedel , Philipp Treutlein

We investigate the use of a Bose-Einstein condensate trapped on an atom chip for making interferometric measurements of small energy differences. We measure and explain the noise in the energy difference of the split condensates, which…

We construct a matter-wave beam splitter using 87Rb Bose-Einstein condensate on an atom chip. Through the use of radio-frequency-induced double-well potentials, we were able to split a BEC into two clouds separated by distances ranging from…

原子物理 · 物理学 2017-05-24 S. J. Kim , H. Yu , S. T. Gang , J. B. Kim

We analyze a Bose-Einstein condensate (BEC) - based free oscillation atom Michelson interferometer in a weakly confining harmonic magnetic trap. A BEC at the center of the trap is split into two harmonics by a laser standing wave. The…

原子物理 · 物理学 2013-05-29 Rudra P. Kafle , Dana Z. Anderson , Alex A. Zozulya

Atom interferometry with high visibility is of high demand for precision measurements. Here, a parallel multicomponent interferometer is achieved by preparing a spin-$2$ Bose-Einstein condensate of $^{87}$Rb atoms confined in a hybrid…

量子气体 · 物理学 2019-08-01 Pengju Tang , Peng Peng , Zhihan Li , Xuzong Chen , Xiaopeng Li , Xiaoji Zhou
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