Microwave Atom Chip Design

Miyahira, W.; Rotunno, Andrew P.; Du, Shuangli; Aubin, S.

doi:10.3390/atoms9030054

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Suppression Via Selection Rules1

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2022

2024

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Cited by 2 publications

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“…6 This additional suppression could be realized in an atom chip based on broadband microwave structures such as microstrips. 7 3. EXPERIMENT…”

Section: Suppression Via Selection Rulesmentioning

confidence: 99%

Potential roughness suppression in a RF AC Zeeman atom chip trap

Miyahira,

Aubin

2024

Quantum Sensing, Imaging, and Precision Metrology II

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Trapping and manipulating ultracold atoms through the use of atom chips offers the ability to engineer complex electromagnetic field geometries in a compact form factor. One of the primary limitations hindering their use is trap potential roughness which arises as a result of defects in the atom chip wires when atoms are brought close to the chip. This roughness can play a limiting role in atom interferometry and strong 1D confinement experiments. We present an initial experimental demonstration of atom chip potential roughness suppression using radio-frequency (RF) AC Zeeman (ACZ) potentials on an atom chip. Using ∼20 MHz RF magnetic near-fields from the chip to target intra-manifold transitions in the 87 Rb ground state, we trap atoms in a spindependent ACZ potential. We compare the axial trapping potential for atoms in comparable 2-wire DC and AC Zeeman traps and show evidence of roughness suppression in the AC trap.

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“…6 This additional suppression could be realized in an atom chip based on broadband microwave structures such as microstrips. 7 3. EXPERIMENT…”

Section: Suppression Via Selection Rulesmentioning

confidence: 99%