Zeitschriftenartikel (2712)

  1. 2701.
    Eidmann, K.: Fusion durch Hochleistungs-Laser. Atomwirtschaft-Atomtechnik 19, S. 451 (1974)
  2. 2702.
    Key, M.H.; Eidmann, K.; Dorn, C.; Sigel, R.: Space Resolved X-Ray Measurements on Laser Produced Plasma. Physics Letters. A 48, 2, S. 121 - 122 (1974)
  3. 2703.
    Key, M.H.; Eidmann, K.; Dorn, C.; Sigel, R.: Time Resolved Absolute X-Ray Measurements on Laser-Produced Plasmas. Applied Physics Letters 25, 6, S. 335 - 337 (1974)
  4. 2704.
    Baumhacker, H.; Fill, E.; Schmid, W.: Detection of Short CO_sub.2 Laser Pulses Using the Optical Kerr Effect. Physics Letters. A 44, 1, S. 3 - 4 (1973)
  5. 2705.
    Eidmann, K.: Neue Perspektiven zur Fusion durch Laser. Atomwirtschaft - Atomtechnik 18, S. 204 - 206 (1973)
  6. 2706.
    Fill, E.; Schmid, W.: Amplification of Short Pulses in CO_sub.2 Laser Amplifiers. Physics Letters. A 45, 2, S. 145 - 146 (1973)
  7. 2707.
    Buechl, K.; Eidmann, K.; Salzmann, H.; Sigel, R.: Spectral Investigation of Light Reflected from a Laser-Produced Deuterium Plasma. Applied Physics Letters 20, 1, S. 3 - 4 (1972)
  8. 2708.
    Eidmann, K.; Sachsenmeier, P.; Salzmann, H.; Sigel, R.: Optical Isolators for High-Power Giant-Pulse Laser. Journal of Physics 5, S. 56 - 58 (1972)
  9. 2709.
    Büchl, K.; Schwarz, H. J.; Eidmann, K.; Mulser, P.; Salzmann, H.; Sigel, R.: Plasma Production with a Nd Laser and Non-Thermal Effects. Laser Interaction and Related Plasma Phenomena, S. 503 - 514 (1971)
  10. 2710.
    Hori, M.; Dax, A.: Chirp-corrected, nanosecond Ti:sapphire laser with 6 MHz linewidth for spectroscopy of antiprotonic helium. Optics Letters 34 (8), S. 1273 - 1275
  11. 2711.
    Karshenboim, S. G.: Neutral Meson Oscillations and Equivalence Principle for Particles and Antiparticles. Physics of Particles and Nuclei Letters 6 (6), S. 450 - 454
  12. 2712.
    Li, J.; Gao, Y.; Ma, W.; Liu, L.; Zhang, Z.; Niu, Z.; Ren, Y.; Zhang, X.; Zeng, Q.; Dong, H. et al.; Zhao, D.; Cai, L.; Zhou, W.; Xie, S.: High performance, freestanding and superthin carbon nanotube/epoxy nanocomposite films. Nanoscale 3 (9), S. 3731 - 3736

Buch (13)

  1. 2713.
    Schütz, M. J. A.: Quantum Dots for Quantum Information Processing: Controlling and Exploiting the Quantum Dot Environment. Springer, Heidelberg (2017), 199 S.
  2. 2714.
    Fattahi, H.: Third-Generation Femtosecond Technology. Springer, Cham (2016), 140 S.
  3. 2715.
    Reiserer, A.: A Controlled Phase Gate Between a Single Atom and an Optical Photon. Springer, Heidelberg (2016), 72 S.
  4. 2716.
    Sommer, A.: Ultrafast Strong Field Dynamics in Dielectrics. Springer (2016)
  5. 2717.
    Navarrete-Benlloch, C.: An Introduction to the Formalism of Quantum Information with Continuous Variables. Morgan & Claypool Publishers / IOP, Bristol (2015), 240 S.
  6. 2718.
    Hommelhoff, P.: Attosecond Nanophysics. Wiley-VCH Verlag GmbH, Weinheim (2015), 392 S.
  7. 2719.
    Karshenboim, S. G. (Hg.): Precision Physics of Simple Atoms and Molecules. Springer, Heidelberg (2008), 286 S.
  8. 2720.
    Hänsch, T. W.: 100 Produkte der Zukunft Wegweisende Ideen, die unser Leben verändern werden. Ullstein (Econ) Verlag, Berlin (2007), 255 S.
 
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