Geometric phases, Everett's many-worlds interpretation of quantum mechanics, and wormholes
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Publication:6578530
DOI10.1007/S40509-024-00324-9MaRDI QIDQ6578530
Publication date: 25 July 2024
Published in: Quantum Studies: Mathematics and Foundations (Search for Journal in Brave)
Cites Work
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- On Poisson geometries related to noncommutative emergent gravity
- Worlds in the Everett interpretation
- Higher-spin gravity and torsion on quantized space-time in matrix models
- Adiabatic perturbation theory in quantum dynamics
- Purification of Lindblad dynamics, geometry of mixed states and geometric phases
- Adiabatic quantum control hampered by entanglement
- Chaos, decoherence and emergent extradimensions in D-brane dynamics with fluctuations
- A new kind of geometric phases in open quantum systems and higher gauge theory
- Measuring finite quantum geometries via quasi-coherent states
- Significance of Electromagnetic Potentials in the Quantum Theory
- Principal bundle structure of quantum adiabatic dynamics with a Berry phase which does not commute with the dynamical phase
- The need for a flat higher gauge structure to describe a Berry phase associated with some resonance phenomena
- Emergent geometry and gravity from matrix models: an introduction
- Quantal phase factors accompanying adiabatic changes
- A First Course in String Theory
- Geometric phases in adiabatic Floquet theory, Abelian gerbes and Cheon's anholonomy
- On the adiabatic theorem of quantum mechanics
- Wormholes in spacetime and their use for interstellar travel: A tool for teaching general relativity
- Schrödinger–Koopman quasienergy states of quantum systems driven by classical flow
- Quantum gravity as an emergent phenomenon
- Emergent gravity and D-brane adiabatic dynamics: emergent Lorentz connection
- Adiabatic theorem for bipartite quantum systems in weak coupling limit
- Covariant Loop Quantum Gravity
- Adiabatic Control of the Schrödinger Equation via Conical Intersections of the Eigenvalues
- The Particle Problem in the General Theory of Relativity
- Fuzzy Schwarzschild (2 + 1)-spacetime
- Loop spaces, characteristic classes and geometric quantization
- D-branes in B fields
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