Publication:

A diamond-based scanning probe spin sensor operating at low temperature in ultra-high vacuum

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cris.lastimport.scopus

2024-08-09T11:16:26Z

cris.lastimport.wos

2024-07-26T03:53:51Z

cris.legacyId

198125

cris.virtual.author-scopus

16219729200

cris.virtual.department

LSEN

cris.virtual.parent-organization

IPHYS

cris.virtual.parent-organization

SB

cris.virtual.parent-organization

EPFL

cris.virtual.rid

CYH-5259-2022

cris.virtual.sciperId

105546

cris.virtual.unitId

10152

cris.virtual.unitManager

Kern, Klaus

cris.virtualsource.author-scopus

ea47ec2e-b963-4d0a-b798-4e202ddc9940

cris.virtualsource.department

ea47ec2e-b963-4d0a-b798-4e202ddc9940

cris.virtualsource.orcid

ea47ec2e-b963-4d0a-b798-4e202ddc9940

cris.virtualsource.parent-organization

45074bc4-c586-41b4-aa07-458c61bb967f

cris.virtualsource.parent-organization

45074bc4-c586-41b4-aa07-458c61bb967f

cris.virtualsource.parent-organization

45074bc4-c586-41b4-aa07-458c61bb967f

cris.virtualsource.parent-organization

45074bc4-c586-41b4-aa07-458c61bb967f

cris.virtualsource.rid

ea47ec2e-b963-4d0a-b798-4e202ddc9940

cris.virtualsource.sciperId

ea47ec2e-b963-4d0a-b798-4e202ddc9940

cris.virtualsource.unitId

45074bc4-c586-41b4-aa07-458c61bb967f

cris.virtualsource.unitManager

45074bc4-c586-41b4-aa07-458c61bb967f

datacite.rights

metadata-only

dc.contributor.author

Schaefer-Nolte, E.

dc.contributor.author

Reinhard, F.

dc.contributor.author

Ternes, M.

dc.contributor.author

Wrachtrup, J.

dc.contributor.author

Kern, K.

dc.date.accessioned

2014-04-02T16:41:17

dc.date.available

2014-04-02T16:41:17

dc.date.created

2014-04-02

dc.date.issued

2014

dc.date.modified

2025-01-23T23:08:14.898905Z

dc.description.abstract

We present the design and performance of an ultra-high vacuum (UHV) low temperature scanning probe microscope employing the nitrogen-vacancy color center in diamond as an ultrasensitive magnetic field sensor. Using this center as an atomic-size scanning probe has enabled imaging of nanoscale magnetic fields and single spins under ambient conditions. In this article we describe an experimental setup to operate this sensor in a cryogenic UHV environment. This will extend the applicability to a variety of molecular systems due to the enhanced target spin lifetimes at low temperature and the controlled sample preparation under UHV conditions. The instrument combines a tuning-fork based atomic force microscope (AFM) with a high numeric aperture confocal microscope and the facilities for application of radio-frequency (RF) fields for spin manipulation. We verify a sample temperature of <50 K even for strong laser and RF excitation and demonstrate magnetic resonance imaging with a magnetic AFM tip. (C) 2014 AIP Publishing LLC.

dc.description.sponsorship

LSEN

dc.identifier.doi

10.1063/1.4858835

dc.identifier.isi

WOS:000331217300032

dc.identifier.uri

https://infoscience.epfl.ch/handle/20.500.14299/102493

dc.publisher

Amer Inst Physics

dc.publisher.place

Melville

dc.relation.issn

0034-6748

dc.relation.journal

Review Of Scientific Instruments

dc.size

8

dc.title

A diamond-based scanning probe spin sensor operating at low temperature in ultra-high vacuum

dc.type

text::journal::journal article::research article

dspace.entity.type

Publication

dspace.legacy.oai-identifier

oai:infoscience.tind.io:198125

epfl.legacy.itemtype

Journal Articles

epfl.legacy.submissionform

ARTICLE

epfl.oai.currentset

SB

epfl.oai.currentset

OpenAIREv4

epfl.oai.currentset

article

epfl.peerreviewed

REVIEWED

epfl.publication.version

http://purl.org/coar/version/c_970fb48d4fbd8a85

epfl.writtenAt

EPFL

oaire.citation.articlenumber

013701

oaire.citation.issue

1

oaire.citation.volume

85

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