Add to ORKGWe experimentally and theoretically study Bragg diffraction as a tool for large-momentum transfer beam splitters in atom interferometry. A theoretical framework is developed to quantify the diffraction phase systematic caused by Bragg diffraction and experiments are performed to confirm these predictions using a Ramsey-Bord\'e atom interferometer. We then develop methods to systematically cancel and reduce the diffraction phase systematic by carefully selecting Bragg diffraction parameters and utilizing Bloch oscillations. These techniques are then applied to an ongoing precision measurement of $h/m_\text{Cs}$ for cesium, with the end goal of measuring the fine structure constant $\alpha$. We demonstrate a high contrast simultaneous conjuga...
Light pulses have proven to be a powerful and versatile tool to implement beam splitters and mirrors...
It is possible to determine the h/mRb ratio between the Planck constant and the mass of the atoms, a...
We demonstrate a novel type of cesium atom interferometer which uses a combination of a microwave gr...
We experimentally and theoretically study the diffraction phase of large-momentum transfer beam spli...
We experimentally and theoretically study the diffraction phase of large-momentum transfer beam spli...
The fine-structure constant $\alpha$ is ubiquitous in physics, and a comparison among different expe...
Measurements of the fine-structure constant α require methods from across subfields and are thus pow...
We propose and analyze a method that allows for the production of squeezed states of the atomic cent...
International audienceWe provide a comprehensive study of ultracold-atom diffraction by an optical l...
Light-pulse atom interferometers have been used as quantum inertial sensors and for precision tests ...
Thesis (Ph.D.)--University of Washington, 2014This dissertation describes the creation of the first ...
Atom interferometers, in which de Broglie waves are coherently split and recombined to make interfer...
We present a precision gravimeter based on coherent Bragg diffraction of freely falling cold atoms. ...
We theoretically consider the effect of the atomic source's momentum width on the efficiency of Brag...
Using an atom interferometer method, we measure the recoil velocity of cesium due to the coherent sc...
Light pulses have proven to be a powerful and versatile tool to implement beam splitters and mirrors...
It is possible to determine the h/mRb ratio between the Planck constant and the mass of the atoms, a...
We demonstrate a novel type of cesium atom interferometer which uses a combination of a microwave gr...
We experimentally and theoretically study the diffraction phase of large-momentum transfer beam spli...
We experimentally and theoretically study the diffraction phase of large-momentum transfer beam spli...
The fine-structure constant $\alpha$ is ubiquitous in physics, and a comparison among different expe...
Measurements of the fine-structure constant α require methods from across subfields and are thus pow...
We propose and analyze a method that allows for the production of squeezed states of the atomic cent...
International audienceWe provide a comprehensive study of ultracold-atom diffraction by an optical l...
Light-pulse atom interferometers have been used as quantum inertial sensors and for precision tests ...
Thesis (Ph.D.)--University of Washington, 2014This dissertation describes the creation of the first ...
Atom interferometers, in which de Broglie waves are coherently split and recombined to make interfer...
We present a precision gravimeter based on coherent Bragg diffraction of freely falling cold atoms. ...
We theoretically consider the effect of the atomic source's momentum width on the efficiency of Brag...
Using an atom interferometer method, we measure the recoil velocity of cesium due to the coherent sc...
Light pulses have proven to be a powerful and versatile tool to implement beam splitters and mirrors...
It is possible to determine the h/mRb ratio between the Planck constant and the mass of the atoms, a...
We demonstrate a novel type of cesium atom interferometer which uses a combination of a microwave gr...