E-Thesis 561 views 131 downloads
Perturbative and semiclassical exploration of dualities / WILL ROBERTS
Swansea University Author: WILL ROBERTS
DOI (Published version): 10.23889/SUthesis.62921
Abstract
In this work we consider Abelian gauge fields defined on a (3 + 1)-dimensional bulk spacetime, which is allowed to interact with a matter CFT living on a plane boundary. This gives a family of boundary conformal field theories parameterized by the gauge coupling τ in the upper-half plane. Combining...
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Swansea
2023
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| Institution: | Swansea University |
| Degree level: | Doctoral |
| Degree name: | Ph.D |
| Supervisor: | Kumar, Prem |
| URI: | https://cronfa.swan.ac.uk/Record/cronfa62921 |
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<?xml version="1.0"?><rfc1807><datestamp>2023-03-13T09:09:17.7891283</datestamp><bib-version>v2</bib-version><id>62921</id><entry>2023-03-13</entry><title>Perturbative and semiclassical exploration of dualities</title><swanseaauthors><author><sid>614993ead34dba4a3b158e4917e358e6</sid><firstname>WILL</firstname><surname>ROBERTS</surname><name>WILL ROBERTS</name><active>true</active><ethesisStudent>false</ethesisStudent></author></swanseaauthors><date>2023-03-13</date><abstract>In this work we consider Abelian gauge fields defined on a (3 + 1)-dimensional bulk spacetime, which is allowed to interact with a matter CFT living on a plane boundary. This gives a family of boundary conformal field theories parameterized by the gauge coupling τ in the upper-half plane. Combining this with the recently discovered web of dualities connecting (2 + 1)-dimensional quantum field theories and SL(2, Z) duality in the bulk, one can perform powerful resummations in perturbation theory. We put this to work by considering a free scalar field theory on the boundary, which has a self-duality under τ → − 1 in this setup. Leveraging on this we compute the two-loop anomalous dimension of the mass-squared operator, which is then resummed by imposing the self-duality. Our result can then be extrapolated to τ = 1 which, after a bulk SL(2, Z) transformation, is then related to the 3d Gross-Neveu model by 3d bosonization. In particular this allows us to make a prediction for the anomalous dimension of the mass operator in the 3d Gross-Neveu model.</abstract><type>E-Thesis</type><journal/><volume/><journalNumber/><paginationStart/><paginationEnd/><publisher/><placeOfPublication>Swansea</placeOfPublication><isbnPrint/><isbnElectronic/><issnPrint/><issnElectronic/><keywords>Quantum field theory, condensed matter, duality, boundary conformal field theory</keywords><publishedDay>10</publishedDay><publishedMonth>3</publishedMonth><publishedYear>2023</publishedYear><publishedDate>2023-03-10</publishedDate><doi>10.23889/SUthesis.62921</doi><url/><notes/><college>COLLEGE NANME</college><CollegeCode>COLLEGE CODE</CollegeCode><institution>Swansea University</institution><supervisor>Kumar, Prem</supervisor><degreelevel>Doctoral</degreelevel><degreename>Ph.D</degreename><degreesponsorsfunders>STFC</degreesponsorsfunders><apcterm/><funders/><projectreference/><lastEdited>2023-03-13T09:09:17.7891283</lastEdited><Created>2023-03-13T08:54:23.4874536</Created><path><level id="1">Faculty of Science and Engineering</level><level id="2">School of Biosciences, Geography and Physics - Physics</level></path><authors><author><firstname>WILL</firstname><surname>ROBERTS</surname><order>1</order></author></authors><documents><document><filename>62921__26817__c2370a021c1641dbb07ab6e8aec90bd7.pdf</filename><originalFilename>Roberts_William_PhD_Thesis_Final_Redacted_Signature.pdf</originalFilename><uploaded>2023-03-13T09:01:03.9895761</uploaded><type>Output</type><contentLength>2753048</contentLength><contentType>application/pdf</contentType><version>E-Thesis – open access</version><cronfaStatus>true</cronfaStatus><documentNotes>Copyright: The author, William Roberts, 2023.</documentNotes><copyrightCorrect>true</copyrightCorrect><language>eng</language></document></documents><OutputDurs/></rfc1807> |
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2023-03-13T09:09:17.7891283 v2 62921 2023-03-13 Perturbative and semiclassical exploration of dualities 614993ead34dba4a3b158e4917e358e6 WILL ROBERTS WILL ROBERTS true false 2023-03-13 In this work we consider Abelian gauge fields defined on a (3 + 1)-dimensional bulk spacetime, which is allowed to interact with a matter CFT living on a plane boundary. This gives a family of boundary conformal field theories parameterized by the gauge coupling τ in the upper-half plane. Combining this with the recently discovered web of dualities connecting (2 + 1)-dimensional quantum field theories and SL(2, Z) duality in the bulk, one can perform powerful resummations in perturbation theory. We put this to work by considering a free scalar field theory on the boundary, which has a self-duality under τ → − 1 in this setup. Leveraging on this we compute the two-loop anomalous dimension of the mass-squared operator, which is then resummed by imposing the self-duality. Our result can then be extrapolated to τ = 1 which, after a bulk SL(2, Z) transformation, is then related to the 3d Gross-Neveu model by 3d bosonization. In particular this allows us to make a prediction for the anomalous dimension of the mass operator in the 3d Gross-Neveu model. E-Thesis Swansea Quantum field theory, condensed matter, duality, boundary conformal field theory 10 3 2023 2023-03-10 10.23889/SUthesis.62921 COLLEGE NANME COLLEGE CODE Swansea University Kumar, Prem Doctoral Ph.D STFC 2023-03-13T09:09:17.7891283 2023-03-13T08:54:23.4874536 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Physics WILL ROBERTS 1 62921__26817__c2370a021c1641dbb07ab6e8aec90bd7.pdf Roberts_William_PhD_Thesis_Final_Redacted_Signature.pdf 2023-03-13T09:01:03.9895761 Output 2753048 application/pdf E-Thesis – open access true Copyright: The author, William Roberts, 2023. true eng |
| title |
Perturbative and semiclassical exploration of dualities |
| spellingShingle |
Perturbative and semiclassical exploration of dualities WILL ROBERTS |
| title_short |
Perturbative and semiclassical exploration of dualities |
| title_full |
Perturbative and semiclassical exploration of dualities |
| title_fullStr |
Perturbative and semiclassical exploration of dualities |
| title_full_unstemmed |
Perturbative and semiclassical exploration of dualities |
| title_sort |
Perturbative and semiclassical exploration of dualities |
| author_id_str_mv |
614993ead34dba4a3b158e4917e358e6 |
| author_id_fullname_str_mv |
614993ead34dba4a3b158e4917e358e6_***_WILL ROBERTS |
| author |
WILL ROBERTS |
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WILL ROBERTS |
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E-Thesis |
| publishDate |
2023 |
| institution |
Swansea University |
| doi_str_mv |
10.23889/SUthesis.62921 |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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School of Biosciences, Geography and Physics - Physics{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Biosciences, Geography and Physics - Physics |
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| description |
In this work we consider Abelian gauge fields defined on a (3 + 1)-dimensional bulk spacetime, which is allowed to interact with a matter CFT living on a plane boundary. This gives a family of boundary conformal field theories parameterized by the gauge coupling τ in the upper-half plane. Combining this with the recently discovered web of dualities connecting (2 + 1)-dimensional quantum field theories and SL(2, Z) duality in the bulk, one can perform powerful resummations in perturbation theory. We put this to work by considering a free scalar field theory on the boundary, which has a self-duality under τ → − 1 in this setup. Leveraging on this we compute the two-loop anomalous dimension of the mass-squared operator, which is then resummed by imposing the self-duality. Our result can then be extrapolated to τ = 1 which, after a bulk SL(2, Z) transformation, is then related to the 3d Gross-Neveu model by 3d bosonization. In particular this allows us to make a prediction for the anomalous dimension of the mass operator in the 3d Gross-Neveu model. |
| published_date |
2023-03-10T04:23:19Z |
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1763663937286438912 |
| score |
11.036334 |