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1680

1930. 1680. 1960. 1515. Optics. Focus. Confocal theory. Confocal theory. Dr. Marvin Minsky Confocal microscope: 1957. L aser. S canning. C onfocal M icroscope. LASER. L ight A mplification by the S timulated E mission of R adiation. Dichroic Mirror. Conventional / Confocal.

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1680

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  1. 1930 1680 1960 1515

  2. Optics

  3. Focus

  4. Confocal theory

  5. Confocal theory Dr. Marvin Minsky Confocal microscope: 1957

  6. Laser Scanning Confocal Microscope LASER Light Amplification by the Stimulated Emission of Radiation

  7. Dichroic Mirror

  8. Conventional / Confocal

  9. Fluorescence 400 nm

  10. Wavelength and Light Properties (l) 575 nm High Energy Low Energy E = h c /l 0,5* *2

  11. 800 nm 800 nm 1200 nm 1200 nm 1200 nm Multiphoton exitation 400 nm Dr. Maria Göppert-Mayer : theory of two-photon quantum transitions (two-photon absorption and emission) 1931,

  12. nm nm 500 800 1200 Temporal photon concentration Pulsed LASER LASER 500 nm 1000 nm 1200 nm 800 nm

  13. Prof. Watt W. Webb et al. Two-photon laser scanning fluorescence microscopy: 1990 Spatial photon concentration

  14. Confocal / Multiphoton

  15. Photoconversion Excitation area Luo at al. Cell Structure and Function 2006, 31: 63 Comparison of photoactivation of PA-GFP in vivo with single-photon (405 nm) and multiphoton (790 nm) laser light.

  16. In VIVO Imaging Thorsten at al. Nature 2004; 427: 159 T-cell priming by dendriticcells in lymph nodes occurs in three distinct phases

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