Journal
JOURNAL OF HIGH ENERGY PHYSICS
Volume -, Issue 10, Pages -Publisher
SPRINGER
DOI: 10.1007/JHEP10(2018)011
Keywords
AdS-CFT Correspondence; Black Holes in String Theory; Effective Field Theories; Lattice Quantum Field Theory
Categories
Funding
- Government of Canada through the Department of Innovation, Science and Economic Development
- Province of Ontario through the Ministry of Research Innovation
- Simons Foundation through the It from Qubit Collaboration
- NSERC
- INFN
- NNSFC [11775022, 11375026]
- China Scholarship Council
- Perimeter Institute Visiting Graduate Fellows program
- Government of Ontario's Ministry of Advanced Education and Skills Development
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We examine the circuit complexity of coherent states in a free scalar field theory, applying Nielsen's geometric approach as in [1]. The complexity of the coherent states have the same UV divergences as the vacuum state complexity and so we consider the finite increase of the complexity of these states over the vacuum state. One observation is that generally, the optimal circuits introduce entanglement between the normal modes at intermediate stages even though our reference state and target states are not entangled in this basis. We also compare our results from Nielsen's approach with those found using the Fubini-Study method of [2]. For general coherent states, we find that the complexities, as well as the optimal circuits, derived from these two approaches, are different.
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