Add to ORKGThe article of record as published may be found at https://doi.org/10.1088/1367-2630/ab2e8cIn this article we present a new representation-free formalism, which can significantly simplify the analysis of interferometers comprised of atoms moving in time-dependent linear potentials. We present a methodology for the construction of two pairs of time-dependent functions that, once determined, lead to two conditions for the closing of the interferometer, and determine the phase and the contrast of the resultant interference. Using this new formalism, we explore the dependency of the interferometer phase on the interferometer time T for different atom interferometers. By now, it is well established that light pulse atom interferometers of the ty...
International audienceWe study theoretically and experimentally the influence of temporally shaping ...
International audienceSummary form only given. Atom chips [1] have shown to be very successful for t...
Thesis (Ph.D.)--University of Washington, 2019This work presents experiments and theory on ``magic d...
International audienceWe derive an expression for the phase shift of an atom interferometer in a gra...
In this paper we present a mathematical procedure to analytically calculate the output signal of a p...
We study in a general treatment the influence of a class of perturbations acting on the atoms of an ...
We demonstrate a standing wave light pulse sequence that places atoms into a superposition of displa...
We propose an atom interferometer with a nonvanishing proper time difference by combining two optica...
We compare a conventional Mach–Zehnder light-pulse atom interferometer based on diffractive mirrors ...
This thesis details the experimental investigation of a new type of atom interferometer using rubidi...
Motivated by a recent claim by Muller et al (2010 Nature 463 926-9) that an atom interferometer can ...
A standing-wave light-pulse sequence is demonstrated that places atoms into a superposition of wave ...
Using Bloch states to describe atomic motion, we show how to calculate the phase shifts associated t...
5 pages, to appear in the proceedings of the "46th Rencontres de Moriond and GPhyS Colloquium on Gra...
International audienceWe study theoretically and experimentally the influence of temporally shaping ...
International audienceSummary form only given. Atom chips [1] have shown to be very successful for t...
Thesis (Ph.D.)--University of Washington, 2019This work presents experiments and theory on ``magic d...
International audienceWe derive an expression for the phase shift of an atom interferometer in a gra...
In this paper we present a mathematical procedure to analytically calculate the output signal of a p...
We study in a general treatment the influence of a class of perturbations acting on the atoms of an ...
We demonstrate a standing wave light pulse sequence that places atoms into a superposition of displa...
We propose an atom interferometer with a nonvanishing proper time difference by combining two optica...
We compare a conventional Mach–Zehnder light-pulse atom interferometer based on diffractive mirrors ...
This thesis details the experimental investigation of a new type of atom interferometer using rubidi...
Motivated by a recent claim by Muller et al (2010 Nature 463 926-9) that an atom interferometer can ...
A standing-wave light-pulse sequence is demonstrated that places atoms into a superposition of wave ...
Using Bloch states to describe atomic motion, we show how to calculate the phase shifts associated t...
5 pages, to appear in the proceedings of the "46th Rencontres de Moriond and GPhyS Colloquium on Gra...
International audienceWe study theoretically and experimentally the influence of temporally shaping ...
International audienceSummary form only given. Atom chips [1] have shown to be very successful for t...
Thesis (Ph.D.)--University of Washington, 2019This work presents experiments and theory on ``magic d...
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