Geometric Phases and the Separation of the World by Michael Berry

Geometric Phases and the Separation of the World by Michael Berry

International Centre for Theoretical Sciences via YouTube Direct link

Where is the phase?

22 of 32

22 of 32

Where is the phase?

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Geometric Phases and the Separation of the World by Michael Berry

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  1. 1 Prehistory: The first geometric phase, discovered in the optics of crystals in 1830
  2. 2 "The radiant Stranger", TrinityCollege Dublin, 24 May 2018
  3. 3 Phase: Describes the stages of any cyclic process
  4. 4 Underlying mathematics Gauss approximate 1800: parallel transport in the presence of curvature
  5. 5 Foucault pendulum
  6. 6 Underlying parallel transport: Anholonomy
  7. 7 The geometric phase
  8. 8 Dynamical phase and geometric phase
  9. 9 Measure the geometric phase by interference
  10. 10 Polarisation rotation in a coiled optical fiber
  11. 11 Polarisation rotation of spinning neutrons
  12. 12 Why is the phase geometric?
  13. 13 Exchange sign is a topological phase Pi for Pauli
  14. 14 A new calculation, with Pragya Shukla: probability distribution of curvature C for random parameter-dependent states
  15. 15 Numerical simulation, 10000 sample hamiltonians
  16. 16 Real symmetric matrix, eg. time-reversal symmetry
  17. 17 Beyond adiabatic i driven parameters Rt
  18. 18 Represent solution by unit spin expectation vector
  19. 19 The series eventually diverges, because higher terms involve higher derivatives
  20. 20 Divergence is inevitable, in order to accommodate transitions - exponentially weak, i.e beyond all orders epsilon power n
  21. 21 Optimal truncation: smoothest birth of the transition
  22. 22 Where is the phase?
  23. 23 Beyond adiabatic 2: dynamics of parameters Rt
  24. 24 Pi is a special case of the phase, amounting to a reversal
  25. 25 Geometric magnetism from the polarisation-rotation phase of light
  26. 26 Separation is fundamental to the practice of science
  27. 27 Geometric phase timeline
  28. 28 1983. Simon: connection with fiber bundles, Chern class
  29. 29 Eponymous nomenclature
  30. 30 Back to the beginning: easy way to see hamilton's cone and its geometric phase: do-it-yourself cononscopy
  31. 31 Fringes are contours of cone separation
  32. 32 Some references, all downloadable from http://michaelberryphisics.wordpress.com

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