Novel Phases of Matter Near Absolute Zero Temperature by Sanjukta Roy

Novel Phases of Matter Near Absolute Zero Temperature by Sanjukta Roy

International Centre for Theoretical Sciences via YouTube Direct link

Why Bose-Fermi mixture?

65 of 73

65 of 73

Why Bose-Fermi mixture?

Class Central Classrooms beta

YouTube videos curated by Class Central.

Classroom Contents

Novel Phases of Matter Near Absolute Zero Temperature by Sanjukta Roy

Automatically move to the next video in the Classroom when playback concludes

  1. 1 WHEN: 4:00 pm to pm Sunday, 31 July 2022
  2. 2 Introduction to the Speaker
  3. 3 Outline of the talk
  4. 4 Bose-Einstein Condensation 1924
  5. 5 Letter by Bose to Einstein
  6. 6 Einstein's reply to Bose
  7. 7 Celebrating Satyendra Nath Bose
  8. 8 Quantum gases
  9. 9 The prediction of 'condensation'
  10. 10 Bose-Einstein condensation
  11. 11 Temperature scale
  12. 12 Five states of matter
  13. 13 Plasma: fourth state of matter
  14. 14 How to realize a Bose-Einstein Condensate in a Laboratory?
  15. 15 Steps towards realization of BEC in Experiment
  16. 16 Laser cooling and trapping
  17. 17 Radiation pressure force
  18. 18 DOPPLER EFFECT
  19. 19 Laser cooling
  20. 20 Manipulation of atomic motion using radiation pressure
  21. 21 Cooling by radiation pressure imbalance
  22. 22 Optical molasses Strong damping of atomic motion
  23. 23 Magneto-Optical trapping
  24. 24 Picture of cold atoms in a magneto-optical -
  25. 25 The Nobel Prize in Physics 1997
  26. 26 Detection: Absorption Imaging technique
  27. 27 Temperature after laser cooling approx. 40 MuK
  28. 28 Optical dipole trap Optical Tweezer
  29. 29 Loading of optical dipole trap from magneto-optical trap MOT
  30. 30 Quadrupole Magnetic trap
  31. 31 Magnetic trapping
  32. 32 Evaporative cooling to BEC
  33. 33 Signatures of harmonically trapped BEC
  34. 34 Evaporative cooling to Bose-Einstein condense
  35. 35 BEC @ JILA, June '95 Rubidium
  36. 36 BEC: like atoms marching in locksteps
  37. 37 BEC in a crossed Optical dipole trap TIF -
  38. 38 Experimental set-up 39K BEC Florence, Italy
  39. 39 39K BEC Florence, Italy
  40. 40 Coherent and incoherent matter waves
  41. 41 Coherent matter wave: BEC
  42. 42 Superfluid
  43. 43 Superfluid transition in liquid Helium
  44. 44 Frictionless flow in superfluid Helium
  45. 45 Superfluidity
  46. 46 Normal fluid vs Superfluid
  47. 47 Vortices in BEC
  48. 48 Supersolidity in Bose-Einstein condensates Coexistence of solid, superfluid and gas
  49. 49 Order in a solid
  50. 50 Supersolidity
  51. 51 Quantum Technology with cold atoms
  52. 52 BEC in Space
  53. 53 Gravimeter with cold atoms in Spa
  54. 54 Conventional clocks
  55. 55 Atomic clocks
  56. 56 Fountain Atomic clocks
  57. 57 Accurate cold Atomic clocks
  58. 58 Practical applications for Atomic clocks
  59. 59 Nobel Prize in Physics 1989
  60. 60 Optical lattices: artificial crystals of light
  61. 61 Quantum simulation with ultra-cold atoms in optical lattice
  62. 62 Optical lattices: Control of Geometry
  63. 63 Atomic legos
  64. 64 Quantum Mixtures QuMix experiment @ R
  65. 65 Why Bose-Fermi mixture?
  66. 66 Vacuum assembly
  67. 67 Quantum Mixture Experiment @ RRI
  68. 68 Rydberg atoms: Giants of the atomic world
  69. 69 Rydberg Experiment@RRI
  70. 70 Quantum Technologies with Rydberg atoms
  71. 71 Quantum Mixtures QuMix and Rydberg Experiment Group @
  72. 72 Q&A
  73. 73 Wrap Up

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Someone learning on their laptop while sitting on the floor.