Coherence & Quantum Technology

Slides:

Advertisements

Similar presentations

Trapped ultracold atoms: Bosons Bose-Einstein condensation of a dilute bosonic gas Probe of superfluidity: vortices.

Advertisements

Engineering Atom Chips

Plasmafysica & Stralingstechnologie Elementary Processes in Gasdischarges Plasma & Materials Processing Coherence & Quantum Technology Science and Technology.

Plasmafysica & Stralingstechnologie Elementary Processes in Gasdischarges Plasma & Materials Processing Coherence & Quantum Technology.

Bose-Einstein Condensation Ultracold Quantum Coherent Gases.

What is not yet possible?

The Intensity-Pulse Duration Conjecture: ELI’s Lynchpin ELI-NP: The Way Ahead Bucharest March 10, 2011 Gérard Mourou, Institut de Lumière Extrême 28/02/11mourou.

ABSOLUTE ZERO Karina Aliaga. WHAT IS ABSOLUTE ZERO?  Temperature is a physical quantity that measures the kinetic energy of particles in matter. It depends.

Quantum Computing with Trapped Ion Hyperfine Qubits.

Quantum Entanglement of Rb Atoms Using Cold Collisions ( 韓殿君 ) Dian-Jiun Han Physics Department Chung Cheng University.

Bose Einstein Condensation Condensed Matter II –Spring 2007 Davi Ortega In Diluted Gas.

Wave Nature of Light and Quantum Theory

Ultracold Plasmas ( Zafar Yasin). Outline - Creation and why considered important? - Characterization. - Modeling. -My Past Research. - Current Research.

Exploring The Quantum Department of Physics Entering the FreezerThe Age of the Qubit HOTCOLD Quantum properties emerge at extremes of energy. We work with.

Great feeling Walking Ifen without machines Sunday Jan 26, 2007.

R & D for particle accelerators in the CLF Peter A Norreys Central Laser Facility STFC Fellow Visiting Professor, Imperial College London.

Gas Liquid Solid Plasma Bose-Einstein Gas has no definite volume or shape. Gas will expand indefinitely Low density causes even distribution of gasses.

High Current Stabilization Circuit for Ultracold Atom Trap

Theoretical Study of the Optical Manipulation of Semiconductor Nanoparticles under an Excitonic Resonance Condition + Reference + T.Iida and H.Ishihara,

The Plasma Physics and Radiation Technology master programme is managed by three groups organizing the four main themes: o Equilibrium and Transport in.

Light scattering and atom amplification in a Bose- Einstein condensate March 25, 2004 Yoshio Torii Institute of Physics, University of Tokyo, Komaba Workshop.

B.E.C.(Bose-Einstein Condensation) 발표자 : 이수룡 (98).

Bose-Einstein Condensation

Ultracold Helium Research Roel Rozendaal Rob van Rooij Wim Vassen.

laser-cooled electron sources experiments / simulations

Bose-Einstein Condensates The Coldest Stuff in the Universe Hiro Miyake Splash! November 17, 2012.

An Ultra cold Analogue of Semiconductor Devices and Circuits Submitted by Sushant Rawat ECE Roll no

Questions/Problems on SEM microcharacterization Explain why Field Emission Gun (FEG) SEM is preferred in SEM? How is a contrast generated in an SEM? What.

Simulation challenges for laser-cooled electron sources Bas van der Geer Marieke de Loos Pulsar Physics The Netherlands Jom Luiten Edgar.

Large Area Plasma Processing System (LAPPS) R. F. Fernsler, W. M. Manheimer, R. A. Meger, D. P. Murphy, D. Leonhardt, R. E. Pechacek, S. G. Walton and.

People Xavier Stragier Marnix van der Wiel (AccTec) Willem op ‘t Root Jom Luiten Walter van Dijk Seth Brussaard Walter Knulst (TUDelft) Fred Kiewiet Eddy.

A compact, soft X-ray FEL at KVI

Ionization in atomic and solid state physics. Paul Corkum Joint Attosecond Science Lab University of Ottawa and National Research Council of Canada Tunneling.

Collisional loss rate measurement of Cesium atoms in MOT Speaker : Wang guiping Date : December 25.

Physical Nano-Processing

Ionization Injection E. Öz Max Planck Institute Für Physik.

Agenda Brief overview of dilute ultra-cold gases

The Bose-Einstein Condensate BY: IVEN, ARYAMAN, PARSON AND BALJOT.

Ultracold electron (& ion) source Edgar Vredenbregt with Merijn Reijnders, Gabriel Taban, Wouter Engelen, Nicola Debernardi, Bas van der Geer, Peter Mutsaers,

Quantum simulations with cold atoms: from solid-state to high-energy physics and cosmology Vladimir S. Melezhik Bogoliubov Laboratory of Theoretical Physics.

A studio to shoot action movies

MSc-Student Activities at the European XFEL

STATES OF MATTER.

8-10 June Institut Henri Poincaré, Paris, France

States of Matter Matter commonly occurs in one of three “states”

7. Ideal Bose Systems Thermodynamic Behavior of an Ideal Bose Gas

Coherence & Quantum Technology

A compact, soft X-ray FEL at KVI

States of Matter Matter is anything that has mass, takes up space (volume) and resists being moved (exhibits inertia). Electricity, light and sound are.

Bose-Einstein Condensation Ultracold Quantum Coherent Gases

All-Optical Injection

SPLASH FALL ALEXANDRE GAUTHIER

Particles and Waves.

Using a Bessel Light Beam as an Ultra-short Period Helical Undulator

Ultra-Intense Lasers Based on K.W.D. Ledingham e.a., Science, 300, 1107 (2003) Roel Rozendaal.

Space Telescope Science Institute

Anatomy of a Phase Shift

Section 2C States of Matter.

7. Ideal Bose Systems Thermodynamic Behavior of an Ideal Bose Gas

Two states of matter they didn’t teach you about in school… Until Now!

Unit 3 - Energy Learning Target 3.4 – Define Temperature and explain how thermal energy is transferred (conduction, convection, & radiation)

Energy hn Photon Electron Frequency n “Size”? l = c/n momentum?

‘Synthetic Magnetism’ Demonstrated

Ch. 2 Notes Day 2.

Two states of matter they didn’t teach you about in school… Until Now!

Two states of matter they didn’t teach you about in school… Until Now!

Key Question: What is meant by a change in state?

Mysterious Damping Action Explained

Plasma : high electic field can accelerate electron and proton laser plasma accelerator can reduced size of future accelerator can produced particle beam.

Presentation transcript:

Coherence & Quantum Technology Jom Luiten

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

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

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

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

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

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

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

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

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

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

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

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