Efficient optical pumping of Zeeman spin levels in Nd3+: YVO4
Identifieur interne : 003A75 ( PascalFrancis/Curation ); précédent : 003A74; suivant : 003A76Efficient optical pumping of Zeeman spin levels in Nd3+: YVO4
Auteurs : Mikael Afzelius [Suisse] ; Matthias U. Staudt [Suisse] ; Hugues De Riedmatten [Suisse] ; Nicolas Gisin [Suisse] ; Olivier Guillot-Noël [France] ; Philippe Goldner [France] ; Robert Marino [France] ; Pierre Porcher [France] ; Enrico Cavalli [Italie] ; Marco Bettinelli [Italie]Source :
- Journal of luminescence [ 0022-2313 ] ; 2010.
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Abstract
We demonstrate that Zeeman ground-state spin levels in Nd3+: YVO4 provides the possibility to create an efficient A- system for optical pumping experiments. The branching ratio R in the A-system is measured experimentally via absorption spectroscopy and is compared to a theoretical model. We show that R can be tuned by changing the orientation of the magnetic field. These results are applied to optical pumping experiments, where significant improvement is obtained compared to previous experiments in this system. The tunability of the branching ratio in combination with its good coherence properties and the high oscillator strength makes Nd3+: YVO4 an interesting candidate for various quantum information protocols.
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<record><TEI><teiHeader><fileDesc><titleStmt><title xml:lang="en" level="a">Efficient optical pumping of Zeeman spin levels in Nd<sup>3+</sup>: YVO<sub>4</sub></title><author><name sortKey="Afzelius, Mikael" sort="Afzelius, Mikael" uniqKey="Afzelius M" first="Mikael" last="Afzelius">Mikael Afzelius</name><affiliation wicri:level="1"><inist:fA14 i1="01"><s1>Group of Applied Physics, University of Geneva</s1><s2>1211 Geneva</s2><s3>CHE</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ></inist:fA14><country>Suisse</country></affiliation></author><author><name sortKey="Staudt, Matthias U" sort="Staudt, Matthias U" uniqKey="Staudt M" first="Matthias U." last="Staudt">Matthias U. 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P. Usberti 17/a</s1><s2>43100 Parma</s2><s3>ITA</s3><sZ>9 aut.</sZ></inist:fA14><country>Italie</country></affiliation></author><author><name sortKey="Bettinelli, Marco" sort="Bettinelli, Marco" uniqKey="Bettinelli M" first="Marco" last="Bettinelli">Marco Bettinelli</name><affiliation wicri:level="1"><inist:fA14 i1="04"><s1>Dipartimento Scientifico e Tecnologico, Univ. Verona Strada Le Grazie 15</s1><s2>37134 Verona</s2><s3>ITA</s3><sZ>10 aut.</sZ></inist:fA14><country>Italie</country></affiliation></author></titleStmt><publicationStmt><idno type="wicri:source">INIST</idno><idno type="inist">10-0351218</idno><date when="2010">2010</date><idno type="stanalyst">PASCAL 10-0351218 INIST</idno><idno type="RBID">Pascal:10-0351218</idno><idno type="wicri:Area/PascalFrancis/Corpus">002511</idno><idno type="wicri:Area/PascalFrancis/Curation">003A75</idno></publicationStmt><sourceDesc><biblStruct><analytic><title xml:lang="en" level="a">Efficient optical pumping of Zeeman spin levels in Nd<sup>3+</sup>: YVO<sub>4</sub></title><author><name sortKey="Afzelius, Mikael" sort="Afzelius, Mikael" uniqKey="Afzelius M" first="Mikael" last="Afzelius">Mikael Afzelius</name><affiliation wicri:level="1"><inist:fA14 i1="01"><s1>Group of Applied Physics, University of Geneva</s1><s2>1211 Geneva</s2><s3>CHE</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ></inist:fA14><country>Suisse</country></affiliation></author><author><name sortKey="Staudt, Matthias U" sort="Staudt, Matthias U" uniqKey="Staudt M" first="Matthias U." last="Staudt">Matthias U. Staudt</name><affiliation wicri:level="1"><inist:fA14 i1="01"><s1>Group of Applied Physics, University of Geneva</s1><s2>1211 Geneva</s2><s3>CHE</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ></inist:fA14><country>Suisse</country></affiliation></author><author><name sortKey="De Riedmatten, Hugues" sort="De Riedmatten, Hugues" uniqKey="De Riedmatten H" first="Hugues" last="De Riedmatten">Hugues De Riedmatten</name><affiliation wicri:level="1"><inist:fA14 i1="01"><s1>Group of Applied Physics, University of Geneva</s1><s2>1211 Geneva</s2><s3>CHE</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ></inist:fA14><country>Suisse</country></affiliation></author><author><name sortKey="Gisin, Nicolas" sort="Gisin, Nicolas" uniqKey="Gisin N" first="Nicolas" last="Gisin">Nicolas Gisin</name><affiliation wicri:level="1"><inist:fA14 i1="01"><s1>Group of Applied Physics, University of Geneva</s1><s2>1211 Geneva</s2><s3>CHE</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ></inist:fA14><country>Suisse</country></affiliation></author><author><name sortKey="Guillot Noel, Olivier" sort="Guillot Noel, Olivier" uniqKey="Guillot Noel O" first="Olivier" last="Guillot-Noël">Olivier Guillot-Noël</name><affiliation wicri:level="1"><inist:fA14 i1="02"><s1>Ecole Nationale Supérieure de Chimie de Paris (ENSCP), Laboratoire de Chimie de la Matière Condensée de Paris, CNRS-UMR 7574, ENSCP, 11 rue Pierre et Marie Curie</s1><s2>75231 Paris</s2><s3>FRA</s3><sZ>5 aut.</sZ><sZ>6 aut.</sZ><sZ>7 aut.</sZ><sZ>8 aut.</sZ></inist:fA14><country>France</country></affiliation></author><author><name sortKey="Goldner, Philippe" sort="Goldner, Philippe" uniqKey="Goldner P" first="Philippe" last="Goldner">Philippe Goldner</name><affiliation wicri:level="1"><inist:fA14 i1="02"><s1>Ecole Nationale Supérieure de Chimie de Paris (ENSCP), Laboratoire de Chimie de la Matière Condensée de Paris, CNRS-UMR 7574, ENSCP, 11 rue Pierre et Marie Curie</s1><s2>75231 Paris</s2><s3>FRA</s3><sZ>5 aut.</sZ><sZ>6 aut.</sZ><sZ>7 aut.</sZ><sZ>8 aut.</sZ></inist:fA14><country>France</country></affiliation></author><author><name sortKey="Marino, Robert" sort="Marino, Robert" uniqKey="Marino R" first="Robert" last="Marino">Robert Marino</name><affiliation wicri:level="1"><inist:fA14 i1="02"><s1>Ecole Nationale Supérieure de Chimie de Paris (ENSCP), Laboratoire de Chimie de la Matière Condensée de Paris, CNRS-UMR 7574, ENSCP, 11 rue Pierre et Marie Curie</s1><s2>75231 Paris</s2><s3>FRA</s3><sZ>5 aut.</sZ><sZ>6 aut.</sZ><sZ>7 aut.</sZ><sZ>8 aut.</sZ></inist:fA14><country>France</country></affiliation></author><author><name sortKey="Porcher, Pierre" sort="Porcher, Pierre" uniqKey="Porcher P" first="Pierre" last="Porcher">Pierre Porcher</name><affiliation wicri:level="1"><inist:fA14 i1="02"><s1>Ecole Nationale Supérieure de Chimie de Paris (ENSCP), Laboratoire de Chimie de la Matière Condensée de Paris, CNRS-UMR 7574, ENSCP, 11 rue Pierre et Marie Curie</s1><s2>75231 Paris</s2><s3>FRA</s3><sZ>5 aut.</sZ><sZ>6 aut.</sZ><sZ>7 aut.</sZ><sZ>8 aut.</sZ></inist:fA14><country>France</country></affiliation></author><author><name sortKey="Cavalli, Enrico" sort="Cavalli, Enrico" uniqKey="Cavalli E" first="Enrico" last="Cavalli">Enrico Cavalli</name><affiliation wicri:level="1"><inist:fA14 i1="03"><s1>Dipartimento di Chimica Generale ed Inorganica, Chimica Analitica e Chimica, Fisica, Università di Parma, Viale G. P. Usberti 17/a</s1><s2>43100 Parma</s2><s3>ITA</s3><sZ>9 aut.</sZ></inist:fA14><country>Italie</country></affiliation></author><author><name sortKey="Bettinelli, Marco" sort="Bettinelli, Marco" uniqKey="Bettinelli M" first="Marco" last="Bettinelli">Marco Bettinelli</name><affiliation wicri:level="1"><inist:fA14 i1="04"><s1>Dipartimento Scientifico e Tecnologico, Univ. Verona Strada Le Grazie 15</s1><s2>37134 Verona</s2><s3>ITA</s3><sZ>10 aut.</sZ></inist:fA14><country>Italie</country></affiliation></author></analytic><series><title level="j" type="main">Journal of luminescence</title><title level="j" type="abbreviated">J. lumin.</title><idno type="ISSN">0022-2313</idno><imprint><date when="2010">2010</date></imprint></series></biblStruct></sourceDesc><seriesStmt><title level="j" type="main">Journal of luminescence</title><title level="j" type="abbreviated">J. lumin.</title><idno type="ISSN">0022-2313</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Absorption spectra</term><term>Branching ratio</term><term>Doping</term><term>Energy-level splitting</term><term>Ground states</term><term>Magnetic field effects</term><term>Neodymium additions</term><term>Optical pumping</term><term>Oscillator strengths</term><term>Yttrium Vanadates</term><term>Zeeman effect</term></keywords><keywords scheme="Pascal" xml:lang="fr"><term>Pompage optique</term><term>Effet Zeeman</term><term>Etat fondamental</term><term>Décomposition niveau énergie</term><term>Rapport branchement</term><term>Spectre absorption</term><term>Effet champ magnétique</term><term>Dopage</term><term>Force oscillateur</term><term>Addition néodyme</term><term>Yttrium Vanadate</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Dopage</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">We demonstrate that Zeeman ground-state spin levels in Nd<sup>3+</sup>: YVO<sub>4</sub> provides the possibility to create an efficient A- system for optical pumping experiments. The branching ratio R in the A-system is measured experimentally via absorption spectroscopy and is compared to a theoretical model. We show that R can be tuned by changing the orientation of the magnetic field. These results are applied to optical pumping experiments, where significant improvement is obtained compared to previous experiments in this system. The tunability of the branching ratio in combination with its good coherence properties and the high oscillator strength makes Nd<sup>3+</sup>: YVO<sub>4</sub> an interesting candidate for various quantum information protocols.</div></front></TEI><inist><standard h6="B"><pA><fA01 i1="01" i2="1"><s0>0022-2313</s0></fA01><fA02 i1="01"><s0>JLUMA8</s0></fA02><fA03 i2="1"><s0>J. lumin.</s0></fA03><fA05><s2>130</s2></fA05><fA06><s2>9</s2></fA06><fA08 i1="01" i2="1" l="ENG"><s1>Efficient optical pumping of Zeeman spin levels in Nd<sup>3+</sup>: YVO<sub>4</sub></s1></fA08><fA09 i1="01" i2="1" l="ENG"><s1>Special Issue based on the Proceedings of the Tenth International Meeting on Hole Burning, Single Molecule, and Related Spectroscopies: Science and Applications (HBSM 2009), Palm cove, Australia, June 22-27, 2009. Issue dedicated to Ivan Lorgeré and Oliver Guillot-Noël</s1></fA09><fA11 i1="01" i2="1"><s1>AFZELIUS (Mikael)</s1></fA11><fA11 i1="02" i2="1"><s1>STAUDT (Matthias U.)</s1></fA11><fA11 i1="03" i2="1"><s1>DE RIEDMATTEN (Hugues)</s1></fA11><fA11 i1="04" i2="1"><s1>GISIN (Nicolas)</s1></fA11><fA11 i1="05" i2="1"><s1>GUILLOT-NOËL (Olivier)</s1></fA11><fA11 i1="06" i2="1"><s1>GOLDNER (Philippe)</s1></fA11><fA11 i1="07" i2="1"><s1>MARINO (Robert)</s1></fA11><fA11 i1="08" i2="1"><s1>PORCHER (Pierre)</s1></fA11><fA11 i1="09" i2="1"><s1>CAVALLI (Enrico)</s1></fA11><fA11 i1="10" i2="1"><s1>BETTINELLI (Marco)</s1></fA11><fA12 i1="01" i2="1"><s1>CHANELIERE (Thierry)</s1><s9>ed.</s9></fA12><fA12 i1="02" i2="1"><s1>SELLARS (Matt J.)</s1><s9>ed.</s9></fA12><fA12 i1="03" i2="1"><s1>MANSON (Neil B.)</s1><s9>ed.</s9></fA12><fA14 i1="01"><s1>Group of Applied Physics, University of Geneva</s1><s2>1211 Geneva</s2><s3>CHE</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ></fA14><fA14 i1="02"><s1>Ecole Nationale Supérieure de Chimie de Paris (ENSCP), Laboratoire de Chimie de la Matière Condensée de Paris, CNRS-UMR 7574, ENSCP, 11 rue Pierre et Marie Curie</s1><s2>75231 Paris</s2><s3>FRA</s3><sZ>5 aut.</sZ><sZ>6 aut.</sZ><sZ>7 aut.</sZ><sZ>8 aut.</sZ></fA14><fA14 i1="03"><s1>Dipartimento di Chimica Generale ed Inorganica, Chimica Analitica e Chimica, Fisica, Università di Parma, Viale G. P. Usberti 17/a</s1><s2>43100 Parma</s2><s3>ITA</s3><sZ>9 aut.</sZ></fA14><fA14 i1="04"><s1>Dipartimento Scientifico e Tecnologico, Univ. Verona Strada Le Grazie 15</s1><s2>37134 Verona</s2><s3>ITA</s3><sZ>10 aut.</sZ></fA14><fA15 i1="01"><s1>Laboratoire Aimé Cotton, CNRS-UPR 3321, Univ. Paris-Sud, Bât. 505</s1><s2>91405 Orsay</s2><s3>FRA</s3><sZ>1 aut.</sZ></fA15><fA15 i1="02"><s1>Laser Physics Centre, Research School of Physics and Engineering, The Australian National University</s1><s2>Canberra, ACT 0200</s2><s3>AUS</s3><sZ>2 aut.</sZ><sZ>3 aut.</sZ></fA15><fA20><s1>1566-1571</s1></fA20><fA21><s1>2010</s1></fA21><fA23 i1="01"><s0>ENG</s0></fA23><fA43 i1="01"><s1>INIST</s1><s2>14666</s2><s5>354000193752120020</s5></fA43><fA44><s0>0000</s0><s1>© 2010 INIST-CNRS. All rights reserved.</s1></fA44><fA45><s0>36 ref.</s0></fA45><fA47 i1="01" i2="1"><s0>10-0351218</s0></fA47><fA60><s1>P</s1><s2>C</s2></fA60><fA61><s0>A</s0></fA61><fA64 i1="01" i2="1"><s0>Journal of luminescence</s0></fA64><fA66 i1="01"><s0>NLD</s0></fA66><fC01 i1="01" l="ENG"><s0>We demonstrate that Zeeman ground-state spin levels in Nd<sup>3+</sup>: YVO<sub>4</sub> provides the possibility to create an efficient A- system for optical pumping experiments. The branching ratio R in the A-system is measured experimentally via absorption spectroscopy and is compared to a theoretical model. We show that R can be tuned by changing the orientation of the magnetic field. These results are applied to optical pumping experiments, where significant improvement is obtained compared to previous experiments in this system. The tunability of the branching ratio in combination with its good coherence properties and the high oscillator strength makes Nd<sup>3+</sup>: YVO<sub>4</sub> an interesting candidate for various quantum information protocols.</s0></fC01><fC02 i1="01" i2="3"><s0>001B70H20C</s0></fC02><fC02 i1="02" i2="3"><s0>001B70A70E</s0></fC02><fC03 i1="01" i2="3" l="FRE"><s0>Pompage optique</s0><s5>02</s5></fC03><fC03 i1="01" i2="3" l="ENG"><s0>Optical pumping</s0><s5>02</s5></fC03><fC03 i1="02" i2="3" l="FRE"><s0>Effet Zeeman</s0><s5>03</s5></fC03><fC03 i1="02" i2="3" l="ENG"><s0>Zeeman effect</s0><s5>03</s5></fC03><fC03 i1="03" i2="3" l="FRE"><s0>Etat fondamental</s0><s5>04</s5></fC03><fC03 i1="03" i2="3" l="ENG"><s0>Ground states</s0><s5>04</s5></fC03><fC03 i1="04" i2="3" l="FRE"><s0>Décomposition niveau énergie</s0><s5>05</s5></fC03><fC03 i1="04" i2="3" l="ENG"><s0>Energy-level splitting</s0><s5>05</s5></fC03><fC03 i1="05" i2="3" l="FRE"><s0>Rapport branchement</s0><s5>06</s5></fC03><fC03 i1="05" i2="3" l="ENG"><s0>Branching ratio</s0><s5>06</s5></fC03><fC03 i1="06" i2="3" l="FRE"><s0>Spectre absorption</s0><s5>07</s5></fC03><fC03 i1="06" i2="3" l="ENG"><s0>Absorption spectra</s0><s5>07</s5></fC03><fC03 i1="07" i2="3" l="FRE"><s0>Effet champ magnétique</s0><s5>08</s5></fC03><fC03 i1="07" i2="3" l="ENG"><s0>Magnetic field effects</s0><s5>08</s5></fC03><fC03 i1="08" i2="X" l="FRE"><s0>Dopage</s0><s5>09</s5></fC03><fC03 i1="08" i2="X" l="ENG"><s0>Doping</s0><s5>09</s5></fC03><fC03 i1="08" i2="X" l="SPA"><s0>Doping</s0><s5>09</s5></fC03><fC03 i1="09" i2="3" l="FRE"><s0>Force oscillateur</s0><s5>10</s5></fC03><fC03 i1="09" i2="3" l="ENG"><s0>Oscillator strengths</s0><s5>10</s5></fC03><fC03 i1="10" i2="3" l="FRE"><s0>Addition néodyme</s0><s5>11</s5></fC03><fC03 i1="10" i2="3" l="ENG"><s0>Neodymium additions</s0><s5>11</s5></fC03><fC03 i1="11" i2="3" l="FRE"><s0>Yttrium Vanadate</s0><s2>NC</s2><s2>NA</s2><s5>15</s5></fC03><fC03 i1="11" i2="3" l="ENG"><s0>Yttrium Vanadates</s0><s2>NC</s2><s2>NA</s2><s5>15</s5></fC03><fN21><s1>221</s1></fN21></pA><pR><fA30 i1="01" i2="1" l="ENG"><s1>International Conference on Hole Burning, Single Molecule, and Related Spectroscopies: Science and Applications (HBSM 2009)</s1><s2>10</s2><s3>Palm Cove AUS</s3><s4>2009-06-22</s4></fA30></pR></standard></inist></record>Pour manipuler ce document sous Unix (Dilib)
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