Complexity of formation in holography
A bstract It was recently conjectured that the quantum complexity of a holographic boundary state can be computed by evaluating the gravitational action on a bulk region known as the Wheeler-DeWitt patch. We apply this complexity=action duality to evaluate the ‘complexity of formation’ [1, 2], i.e....
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| Published in: | The journal of high energy physics Vol. 2017; no. 1; pp. 1 - 61 |
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| Language: | English |
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Springer Berlin Heidelberg
01.01.2017
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| ISSN: | 1029-8479, 1029-8479 |
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| Abstract | A
bstract
It was recently conjectured that the quantum complexity of a holographic boundary state can be computed by evaluating the gravitational action on a bulk region known as the Wheeler-DeWitt patch. We apply this complexity=action duality to evaluate the ‘complexity of formation’ [1, 2], i.e. the additional complexity arising in preparing the entangled thermofield double state with two copies of the boundary CFT compared to preparing the individual vacuum states of the two copies. We find that for boundary dimensions
d >
2, the difference in the complexities grows linearly with the thermal entropy at high temperatures. For the special case
d
= 2, the complexity of formation is a fixed constant, independent of the temperature. We compare these results to those found using the complexity=volume duality. |
|---|---|
| AbstractList | A
bstract
It was recently conjectured that the quantum complexity of a holographic boundary state can be computed by evaluating the gravitational action on a bulk region known as the Wheeler-DeWitt patch. We apply this complexity=action duality to evaluate the ‘complexity of formation’ [1, 2], i.e. the additional complexity arising in preparing the entangled thermofield double state with two copies of the boundary CFT compared to preparing the individual vacuum states of the two copies. We find that for boundary dimensions
d >
2, the difference in the complexities grows linearly with the thermal entropy at high temperatures. For the special case
d
= 2, the complexity of formation is a fixed constant, independent of the temperature. We compare these results to those found using the complexity=volume duality. It was recently conjectured that the quantum complexity of a holographic boundary state can be computed by evaluating the gravitational action on a bulk region known as the Wheeler-DeWitt patch. We apply this complexity=action duality to evaluate the 'complexity of formation' [1, 2], i.e. the additional complexity arising in preparing the entangled thermofield double state with two copies of the boundary CFT compared to preparing the individual vacuum states of the two copies. We find that for boundary dimensions d > 2, the difference in the complexities grows linearly with the thermal entropy at high temperatures. For the special case d = 2, the complexity of formation is a fixed constant, independent of the temperature. We compare these results to those found using the complexity=volume duality. Abstract It was recently conjectured that the quantum complexity of a holographic boundary state can be computed by evaluating the gravitational action on a bulk region known as the Wheeler-DeWitt patch. We apply this complexity=action duality to evaluate the 'complexity of formation' [1, 2], i.e. the additional complexity arising in preparing the entangled thermofield double state with two copies of the boundary CFT compared to preparing the individual vacuum states of the two copies. We find that for boundary dimensions d > 2, the difference in the complexities grows linearly with the thermal entropy at high temperatures. For the special case d = 2, the complexity of formation is a fixed constant, independent of the temperature. We compare these results to those found using the complexity=volume duality. |
| ArticleNumber | 62 |
| Author | Chapman, Shira Myers, Robert C. Marrochio, Hugo |
| Author_xml | – sequence: 1 givenname: Shira surname: Chapman fullname: Chapman, Shira email: schapman@perimeterinstitute.ca organization: Perimeter Institute for Theoretical Physics – sequence: 2 givenname: Hugo surname: Marrochio fullname: Marrochio, Hugo organization: Perimeter Institute for Theoretical Physics, Department of Physics & Astronomy and Guelph-Waterloo Physics Institute, University of Waterloo – sequence: 3 givenname: Robert C. surname: Myers fullname: Myers, Robert C. organization: Perimeter Institute for Theoretical Physics |
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It was recently conjectured that the quantum complexity of a holographic boundary state can be computed by evaluating the gravitational action on a... Abstract It was recently conjectured that the quantum complexity of a holographic boundary state can be computed by evaluating the gravitational action on a... It was recently conjectured that the quantum complexity of a holographic boundary state can be computed by evaluating the gravitational action on a bulk region... |
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| SubjectTerms | Boundaries Classical and Quantum Gravitation Complexity Computation Elementary Particles Entropy Formations Gravitation High energy physics Holography Physics Physics and Astronomy Quantum Field Theories Quantum Field Theory Quantum Physics Regular Article - Theoretical Physics Relativity Theory String Theory |
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| Title | Complexity of formation in holography |
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