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Plasmafysica & Stralingstechnologie

Plasmafysica & Stralingstechnologie. Elementary Processes in Gasdischarges Plasma & Materials Processing Coherence & Quantum Technology. Plasma Physics and Radiation Technology. Plasma medium: common interest to the PPRT thrust area Same fundamental knowledge reservoir

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Plasmafysica & Stralingstechnologie

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

  2. Plasma Physics and Radiation Technology • Plasma medium: common interest to the PPRT thrust area • Same fundamental knowledge reservoir • Plasmas investigated vary in density and temperatures • Intrinsic nonequilibrium medium • Utilize fundamental knowledge in various applications • Very good example of applied science Experiments and modeling approach / Applied Physics

  3. Plasma Physics and Radiation Technology • Physics and chemistry on short time and length scales • Use of high power lasers for in situ and real time plasma and surface diagnostics • Two groups: Research on plasma-surface interaction Plasma & Materials Processing (PMP) Research on homogeneous plasma processes Elementary Processes in Gasdischarges (EPG) / Applied Physics

  4. Plasma Physics and Radiation Technology High phase space density plasmas Coherence & Quantum Technology DeBroglie wavelength: CQT Phase space density: Quantum Effects become important / Applied Physics

  5. Plasma Physics and Radiation Technology • High temperature, magnetically confined plasmas • Group will have experimental focus • Strong collaboration with national and international facilities world wide Science & Technology of Nuclearfusion • Fusion courses as electives in Plasma track, but also: • Independent / interdisciplinary master •  More details in separate presentation / Applied Physics

  6. Plasma Physics and Radiation Technology • General compulsorycourses: 3 courses (10 ECTS): • Electrodynamics • Computational physics • Complex Analysis • Compulsory trackcourses: 2 courses (8 ECTS): • Introduction to plasma physics • Lasers & Optics • Elective track courses: 3 courses (9 ECTS) • Technical and free elective courses: 4-5 courses (14 ECTS) • External traineeship project of 12 weeks usually outside TU/e (19 ECTS) • Master project1 year (60 ECTS ) / Applied Physics

  7. Plasma Physics and Radiation Technology • General compulsorycourses: 3 courses (10 ECTS): • Electrodynamics • Computational physics • Complex Analysis • Compulsory trackcourses: 2 courses (8 ECTS): • Introduction to plasma physics • Lasers & Optics • Elective track courses: 3 courses (9 ECTS) • Technical and free elective courses: 4-5 courses (14 ECTS) • External traineeship project of 12 weeks usually outside TU/e (19 ECTS) • Master project 1 year (60 ECTS) / Applied Physics

  8. Elementary Processes in Gas Discharges (EPG) • Staff: • Prof.dr.ir. Gerrit Kroesen • Dr.ir. Eddie van Veldhuizen • Dr.ir. Sander Nijdam • Dr.ir. Jan van Dijk • Dr.ir. Job Beckers • Dr.ir. Ana Sobota • Prof.dr. Ute Ebert (CWI) • Prof.dr. Marco Haverlag (Philips) • Prof.dr. Vadim Banine (ASML) • Light andphotons: Efficientlampsand EUV sources • Environmentaltechnology: usingplasmasfor air / water cleaning • Biomedicaltechnology: sterilisation; new medicaltreatments / Applied Physics

  9. Elementary Processes in Gas Discharges (EPG) Plasmas in lab and industry (1) / Applied Physics

  10. Elementary Processes in Gas Discharges (EPG) Plasmas in lab and industry (2) Plasmas in lab and industry (2) / Applied Physics

  11. Stereo-photography of Corona discharges S. Nijdam et al., Appl. Phys. Lett. 92 101502 (2008) / Applied Physics

  12. Coherence & Quantum Technology (CQT) • Staff: • Prof. Jom Luiten • Prof. Ton van Leeuwen • Dr. Servaas Kokkelmans • Dr. Peter Mutsaers • Dr. Edgar Vredenbregt • Dr. Seth Brussaard • 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

  13. Coherence & Quantum Technology (CQT) • Ultra-Cold Electron & Ion Beams: • Laser cooling & trapping; • Femtosecond (10-15 s) laser physics; • Ultra-low temperature • (0.001 - 10 kelvin) plasmas; • Femtosecond electron microscopy; • Sub-nanometer ion beam drilling & milling. Edgar Vredenbregt, Jom Luiten, Peter Mutsaers / Applied Physics

  14. Ultracold plasmas I I 15 K ions e- V Electron temperature Taban et al., to be published Ultracold electron & ion beams Taban et al., Phys. Rev. Special Topics, 11, 050102 (2008) / Applied Physics

  15. Coherence & Quantum Technology (CQT) • Theory of Quantum Gases: • Atoms trapped in an optical lattice; • Superfluidity of ultra-cold (nano-kelvin) • Fermi and Bose gases; • Quantum Plasmas & Beams. Servaas Kokkelmans / Applied Physics

  16. The poor man’s X-ray Free Electron Laser Femtosecondelectron imaging Femtosecond structural dynamics “The (bio)molecular movie...” Phase space density = Beam Brightness / Applied Physics

  17. Plasma & Materials Processing (PMP) • Staff: • Prof.dr.ir. Erwin Kessels • Dr. AgeethBol • Dr. Adriana Creatore • Dr. Richard Engeln • Prof.dr. Ruud Schropp (part-time, ECN) • Prof.dr. Fred Roozeboom (part-time, TNO) • Prof.dr.ir. Richard van de Sanden (part-time, DIFFER) • Understanding of plasma-surface interaction • Nanoscale processing of materials • Renewable energy technologies & nanoelectronics / Applied Physics

  18. Plasma & Materials Processing (PMP) Processing technologies Application areas • Atomic layer deposition • Plasma-enhanced CVD • Plasma etching • Atmospheric plasma processing • Nanoelectronics • Solar cells & solar fuels • Flexible electronics • Sensors, batteries & fuel cells Expertise • Ultrathin film technologies • Nanoscale processing • Plasma surface interaction • Plasma & surface diagnostics • Advanced spectroscopy / Applied Physics

  19. Atomic-scale deposition for solar cells Excellent surface passivation of high-efficiency solar cells Ultrathin films by (plasma-enhanced) atomic layer deposition (ALD) Q-cells Q.ANTUM solar cell Novel nanotechnology Implementation in industry / Applied Physics

  20. Nonlinear surface spectroscopy P(w, 2w)=e0c(1)E(w)+e0c(2):E(w) E(w)+e0c(3):E(w) E(w)EDC +... Electric field-induced second harmonic generation Ultrafast high-intensity laser system Polarization with non-linear contributions: / Applied Physics

  21. Waar komen onze afstudeerders terecht? Lokaleindustrie (ASML, Philips, NXP, FEI) Instituten (TNO, ECN, etc.) Promotieplaatsenbij diverse universiteiten (ookbuitenland via de verschillendezeerinternationaalgeorienteerdegroepen) / Applied Physics

  22. Plasma Physics and Radiation Technology • Plasma medium: common interest to the PPRT thrust area • Same fundamental knowledge reservoir • Plasmas investigated vary in density and temperatures • Intrinsic nonequilibrium medium • Utilize fundamental knowledge in various applications • Very good example of applied science Experiments and modeling approach / Applied Physics

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