60 results on '"Richardson, Martin C."'
Search Results
2. Initial high-intensity laser propagation experiments at the mobile ultrafast high-energy laser facility (MU-HELF).
3. Mid-Infrared Performance of Single Mode Chalcogenide Fibers.
4. Photothermally-realized chalcogenide bulk GRIN media.
5. Initial high-intensity laser propagation experiments at the mobile ultrafast high-energy laser facility (MU-HELF)
6. Scalable laser-written Ge-As-Pb-Se chalcogenide glass-ceramic films and the realization of infrared gradient refractive index elements
7. Mid-infrared performance of single mode chalcogenide fibers
8. Nonlinear processes associated with the amplification of MHz-linewidth laser pulses in single-mode Tm:fiber
9. Atmospheric absorption spectroscopy using Tm: fiber sources around two microns.
10. Widely tunable (>100 nm) continuous-wave narrow-linewidth high-power thulium fiber laser.
11. Optical coherence microscopy for nondestructive 3D imaging of femtosecond laser written structures.
12. Tin inventory for HVM EUVL sources.
13. Characterization of the tin-doped droplet laser plasma EUVL sources for HVM.
14. Diagnostics for laser plasma EUV sources.
15. High-efficiency tin-based EUV sources.
16. Ablation and optical property modification of transparent materials with femtosecond lasers.
17. Femtosecond laser microstructuring and refractive index modification applied to laser and photonic devices.
18. Laser plasma EUVL sources: progress and challenges.
19. Debris studies for the tin-based droplet laser-plasma EUV source.
20. Spectroscopic studies of the Sn-based droplet laser plasma EUV source.
21. Repeller field debris mitigation approach for EUV sources.
22. High-conversion-efficiency tin material laser-plasma source for EUVL.
23. Technology developments toward the practical use of femtosecond laser micromaterials processing.
24. Dynamics of high-repetition-rate laser plasma extreme ultraviolet sources from droplet targets.
25. Laser light coupling physics in high-repetition-rate laser-plasma droplet-target x-ray point sources.
26. Scaling diode-pumped Nd3+and Yb3+-doped YCa4O(BO3)3 (YCOB) self-frequency doubling lasers.
27. Trans-wafer removal of metallization using a nanosecond Tm:fiber laser
28. Photo-ionization of glasses by IR femtosecond laser pulses.
29. X-ray microscopy with compact pulsed sources.
30. Laser-induced damage of Cr:LiSAF crystal at 0.85 m.
31. Photoinduced processes in silicate glasses exposed to IR femtosecond pulses.
32. Collimators for laser plasma x-ray sources.
33. Nanosecond-resolved biological x-ray microscopy with a compact laser system.
34. Debris-free laser plasma source using ice droplets.
35. Ultrafast semiconductor laser diode seeded Cr:LiSAF regenerative amplifier system.
36. Extension of femtosecond Cr:LiSAF systems to the 100-TW level.
37. Frequency-tunable UV laser system for biological and chemical detection.
38. High-power-tunable Cr:LiSAF laser emission utilizing a low-power remote cw oscillator.
39. Nonlinear coloration and damage of wide-gap glasses by femtosecond laser at 0.85 m.
40. X-ray focusing using lobster-eye optics: a comparison of theory with experiment.
41. KeV x-ray imaging of a fs laser plasma with a spherically curved crystal.
42. Ultrastructural imaging and molecular modeling of live bacteria using soft x-ray contact microscopy with nanoseconds laser-plasma radiation.
43. X-ray flash microprobing of structural dynamics in exploding crystals.
44. Characterization of a laser plasma water droplet EUV source.
45. 10-TW femtosecond laser plasma facility.
46. Optimum microchannel plate (MCP) configuration for use in high-speed, high-resolution x-ray imaging.
47. Pulsed x-ray microscopy of biological specimens with laser plasma sources.
48. Observation of human chromosome fibers in a water layer by laser-plasma x-ray contact microscopy.
49. Self-focusing and optical damage in Cr:LiSAF and Cr:LiCAF.
50. Laser plasma sources for soft x-ray projection lithography.
Catalog
Books, media, physical & digital resources
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.