Models of wave-function collapse, underlying theories, and experimental tests
Models of wave-function collapse, underlying theories, and experimental tests
We describe the state of the art in preparing, manipulating and detecting coherent molecular matter. We focus on experimental methods for handling the quantum motion of compound systems from diatomic molecules to clusters or biomolecules.
Molecular quantum optics offers many challenges and innovative prospects: already the combination of two atoms into one molecule takes several well-established methods from atomic physics, such as for instance laser cooling, to their limits. The enormous internal complexity that arises when hundreds or thousands of atoms are bound in a single organic molecule, cluster or nanocrystal provides a richness that can only be tackled by combining methods from atomic physics, chemistry, cluster physics, nanotechnology and the life sciences.
We review various molecular beam sources and their suitability for matter-wave experiments. We discuss numerous molecular detection schemes and give an overview over diffraction and interference experiments that have already been performed with molecules or clusters.
Applications of de Broglie studies with composite systems range from fundamental tests of physics up to quantum-enhanced metrology in physical chemistry, biophysics and the surface sciences.
Nanoparticle quantum optics is a growing field, which will intrigue researchers still for many years to come. This review can, therefore, only be a snapshot of a very dynamical process.
471-527
Bassi, Angelo
374a70f7-61f8-4656-bb45-5857695750f1
Lochan, Kinjalk
e06eed7d-4414-4842-b5d9-809c7934f827
Satin, Seema
57493123-29a6-4586-a162-c49964750ca5
Singh, Tejinder
8770ddc2-08a8-47a6-bc59-40efca966a22
Ulbricht, Hendrik
5060dd43-2dc1-47f8-9339-c1a26719527d
2 August 2013
Bassi, Angelo
374a70f7-61f8-4656-bb45-5857695750f1
Lochan, Kinjalk
e06eed7d-4414-4842-b5d9-809c7934f827
Satin, Seema
57493123-29a6-4586-a162-c49964750ca5
Singh, Tejinder
8770ddc2-08a8-47a6-bc59-40efca966a22
Ulbricht, Hendrik
5060dd43-2dc1-47f8-9339-c1a26719527d
Bassi, Angelo, Lochan, Kinjalk, Satin, Seema, Singh, Tejinder and Ulbricht, Hendrik
(2013)
Models of wave-function collapse, underlying theories, and experimental tests.
Reviews of Modern Physics, 85 (2), .
(doi:10.1103/RevModPhys.85.471).
Abstract
We describe the state of the art in preparing, manipulating and detecting coherent molecular matter. We focus on experimental methods for handling the quantum motion of compound systems from diatomic molecules to clusters or biomolecules.
Molecular quantum optics offers many challenges and innovative prospects: already the combination of two atoms into one molecule takes several well-established methods from atomic physics, such as for instance laser cooling, to their limits. The enormous internal complexity that arises when hundreds or thousands of atoms are bound in a single organic molecule, cluster or nanocrystal provides a richness that can only be tackled by combining methods from atomic physics, chemistry, cluster physics, nanotechnology and the life sciences.
We review various molecular beam sources and their suitability for matter-wave experiments. We discuss numerous molecular detection schemes and give an overview over diffraction and interference experiments that have already been performed with molecules or clusters.
Applications of de Broglie studies with composite systems range from fundamental tests of physics up to quantum-enhanced metrology in physical chemistry, biophysics and the surface sciences.
Nanoparticle quantum optics is a growing field, which will intrigue researchers still for many years to come. This review can, therefore, only be a snapshot of a very dynamical process.
Other
RevModPhys.85.471
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Published date: 2 August 2013
Organisations:
Physics & Astronomy
Identifiers
Local EPrints ID: 367141
URI: http://eprints.soton.ac.uk/id/eprint/367141
ISSN: 0034-6861
PURE UUID: 02ce9da8-a282-4247-a777-8d8ad658995e
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Date deposited: 22 Jul 2014 15:52
Last modified: 15 Mar 2024 03:31
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Author:
Angelo Bassi
Author:
Kinjalk Lochan
Author:
Seema Satin
Author:
Tejinder Singh
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