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ATOMS Condensed Matter

Bosons & Fermions LASERs Bose-Einstein Condensation. ATOMS Condensed Matter. BOSONS & FERMIONS All particles in nature are either Bosons (e.g. photons ) can have same position, momentum, energy, etc. Boson Boson +1 wavefunction or Fermions (e.g. electrons )

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ATOMS Condensed Matter

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  1. Bosons & Fermions • LASERs • Bose-Einstein Condensation ATOMS Condensed Matter

  2. BOSONS & FERMIONS All particles in nature are either Bosons (e.g. photons) can have same position, momentum, energy, etc. Boson Boson +1 wavefunction or Fermions (e.g. electrons) cannot share same position, momentum, energy, etc. Fermion Fermion -1 wavefunction

  3. FERMIONS Pauli Exclusion Principle: No two electrons can occupy the same state (in an atom)  diversity of elements e.g. electrical conductors insulators semi-conductors

  4. BOSONS L A S E R Iight mplification timulated mission adiation Same Wavelength Same Direction In phase (intense) Many Photons Normal light source -> different wavelengths, directions, phases

  5. How to make a LASER? Stimulated Emission(Einstein) Incoming photon stimulates electron to jump down 2nd photon emitted, identical to incoming Spontaneous Emission Electron spontaneously jumps down, emits one photon hf hf hf

  6. 1 photon -> 2 photons -> 4 -> 8 -> 16 -> 32 –> 64 -> … Chain reaction…all photons of same wavelength, direction

  7. Temperature Scales Everyday Use Lab Use Lowest temp possible 0 K = - 459 0F = ABSOLUTE ZERO All atoms stop moving* *Uncertainty Principle prevents attainment , zero-point motion persists

  8. Bosons → Bose-Einstein condensation At very low temp, many particles enter zero-point motion E.g. Liquid Helium Atoms @ 2 K Liquid Helium below 2 K is uperfluid → flows without viscosity

  9. uperconductivity = electrical (electron) flow without resistance BUT…Electrons are fermions → cannot Bose-Einstein condense ?? 2 x Electron = Boson (-1 x -1 = +1) Cooper Pairs → formed in some metals, ceramics at low temp e.g. Meissner magnetic effect

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