High-Q micro-resonators for trapping and detecting a single atom on a chip
High-Q micro-resonators for trapping and detecting a single atom on a chip
Recent progress in the manufacturing of high Q dielectric microresonant structures enables their use as photonic devices that can manipulate and/or detect single atoms on a nanometer scale. Of specific interest is the wafer-based manufacturing of resonators where a good control of the physical characteristics can be achieved during fabrication and during operation, while at the same time allowing integration with other functions on the chip. We also discuss experimental feasibility and compare with first experiments in the field.
Rosenblit, M.
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Japha, Y.
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Horak, P.
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Folman, R.
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2007
Rosenblit, M.
9bf98e4b-37a0-489d-95d7-188d0a57a322
Japha, Y.
5f8ef6eb-3a58-4439-9e34-d646a0a75659
Horak, P.
520489b5-ccc7-4d29-bb30-c1e36436ea03
Folman, R.
ad62364b-cc0f-4058-80be-d9d83ae35e66
Rosenblit, M., Japha, Y., Horak, P. and Folman, R.
(2007)
High-Q micro-resonators for trapping and detecting a single atom on a chip.
Photons, Atoms and Qubits 2007 (PAQ07), London, UK.
02 - 05 Sep 2007.
1 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Recent progress in the manufacturing of high Q dielectric microresonant structures enables their use as photonic devices that can manipulate and/or detect single atoms on a nanometer scale. Of specific interest is the wafer-based manufacturing of resonators where a good control of the physical characteristics can be achieved during fabrication and during operation, while at the same time allowing integration with other functions on the chip. We also discuss experimental feasibility and compare with first experiments in the field.
More information
Published date: 2007
Venue - Dates:
Photons, Atoms and Qubits 2007 (PAQ07), London, UK, 2007-09-02 - 2007-09-05
Identifiers
Local EPrints ID: 49801
URI: http://eprints.soton.ac.uk/id/eprint/49801
PURE UUID: 68236a98-be49-458a-960b-cae841a1f99e
Catalogue record
Date deposited: 05 Dec 2007
Last modified: 16 Mar 2024 03:27
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Contributors
Author:
M. Rosenblit
Author:
Y. Japha
Author:
R. Folman
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