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Coherence & Quantum Technology

Coherence & Quantum Technology. Jom Luiten. CQT: Coherence & Quantum Technology. Extreme plasmas. CQT. Particle manipulationwith light. Atom, ion, electron beams. CQT: Coherence & Quantum Technology. Extreme states of matter : Ultra-cold & ultra-hot, plasmas & gases;

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Coherence & Quantum Technology

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  1. Coherence & Quantum Technology Jom Luiten

  2. CQT: Coherence & Quantum Technology Extreme plasmas CQT Particle manipulationwith light Atom, ion, electron beams / Applied Physics

  3. CQT: Coherence & Quantum Technology • Extremestates of matter: Ultra-cold & ultra-hot, plasmas & gases; • Laser Manipulation of atoms, electrons and ions; • Atom, electron & ion beams forfemto-nano science & engineering. / Applied Physics

  4. Ultrabright Terahertz Source TU/e RF photogun: 4 MeV electron accelerator Coherent Transition Radiation Willem Op ‘t Root / Applied Physics

  5. Laser Wakefield Acceleration • Plasma Laser Wakefield Acceleration: • Terawatt “light bullet” laser physics; • Extreme high-energy-density plasmas; • Giga-electron-volt acceleration in a few cm. • Euroleap: • controlled laser wakefield acceleration; • external injection. Walter van Dijk, Xavier Stragier / Applied Physics

  6. Ultrafast electron diffraction Single-shot, sub-100 fs, 100 keV electron diffraction The molecular movie... Thijs van Oudheusden, Adam Lassise / Applied Physics

  7. Theory of degenerate quantum gases Bose-Einstein Condensation Coherent matter waves Quantum Plasmas? Vortices in superfluid gas Maikel Goosen / Applied Physics

  8. Nano brush: atom lithography Focusing atomic beams with light Nano brush: painting 100 nm lines Direct deposition of magnetic nanostructures Thijs Meijer, Corine Fabrie / Applied Physics

  9. Ultracold electrons: electron diffraction I I Magneto-Optical Trap Gabriel Taban / Applied Physics

  10. Ultracold electrons: electron diffraction I I Near-threshold ionization: Ultracold Plasma! Gabriel Taban / Applied Physics

  11. Ultracold electrons: electron diffraction I I e- Rb+ V V 15 K The biomolecular movie... Ultracold electron & ion beams Gabriel Taban / Applied Physics

  12. Ultracold ions: Focused Ion Beam I I e- Rb+ V V U = 1 eV, σU = 0.02 eV sub-nm focal spot size? Merijn Reijnders, Nicola Debernardi / Applied Physics

  13. Questions....? • Jom Luiten, CYC 2.05, 4359, o.j.luiten@tue.nl / Applied Physics

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