Priebe et al., 2010 - Google Patents
First results from the Daresbury Compton backscattering X-ray source (COBALD)Priebe et al., 2010
- Document ID
- 15664449730098263920
- Author
- Priebe G
- Laundy D
- Phillips P
- Graham D
- Jamison S
- Vassilev S
- Seddon E
- Rosenzweig J
- Krafft G
- Heinzl T
- Filippetto D
- Williams O
- Spohr K
- Ter-Avetisyan S
- Schramm U
- Saveliev Y
- Jones L
- Smith S
- Publication year
- Publication venue
- hard x-ray, gamma-ray, and neutron detector physics xii
External Links
Snippet
Polarized X-ray pulses at 0.6 Å have been generated via head-on collision of a laser pulse from the high-field laser facility at Daresbury with a 30 MeV electron bunch in the ALICE energy recovery linear accelerator. The angular distribution of the backscattered X rays was …
- 238000010894 electron beam technology 0 abstract description 21
Classifications
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05G—X-RAY TECHNIQUE
- H05G2/00—Apparatus or processes specially adapted for producing X-rays, not involving X-ray tubes, e.g. involving generation of a plasma
- H05G2/001—X-ray radiation generated from plasma
- H05G2/003—X-ray radiation generated from plasma being produced from a liquid or gas
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| US7391850B2 (en) | Compact, high-flux, short-pulse x-ray source | |
| Glinec et al. | High-resolution γ-ray radiography produced by a laser-plasma driven electron source | |
| JP2796071B2 (en) | Radiation generation method using electron storage ring and electron storage ring | |
| Kuroda et al. | Quasi-monochromatic hard X-ray source via laser Compton scattering and its application | |
| Gadjev et al. | An inverse free electron laser acceleration-driven Compton scattering X-ray source | |
| Leemans et al. | Interaction of relativistic electrons with ultrashort laser pulses: generation of femtosecond X-rays and microprobing of electron beams | |
| Jacquet | Potential of compact Compton sources in the medical field | |
| Kashiwagi et al. | Observation of high-intensity X-rays in inverse Compton scattering experiment | |
| Priebe et al. | Inverse Compton backscattering source driven by the multi-10 TW laser installed at Daresbury | |
| Priebe et al. | First results from the Daresbury Compton backscattering X-ray source (COBALD) | |
| Corvan et al. | A high-energy, high-flux source of gamma-rays from all-optical non-linear Thomson scattering | |
| Kotaki et al. | Compact X-ray sources by intense laser interactions with beams and plasmas | |
| Kneip et al. | A plasma wiggler beamline for 100 TW to 10 PW lasers | |
| Du et al. | Soft X-ray generation experiment at the Tsinghua Thomson scattering X-ray source | |
| Hudson et al. | Laser-produced X-ray sources | |
| Li et al. | Collimated gamma rays from laser wakefield accelerated electrons | |
| Cianchi et al. | Conceptual design of electron beam diagnostics for high brightness plasma accelerator | |
| Wood et al. | Enhanced betatron radiation from a laser wakefield accelerator in a long focal length geometry | |
| Balanov et al. | Coherent interactions of free electrons and matter: toward tunable compact x-ray sources | |
| Priebe et al. | Inverse Compton backscattering source driven by the multi 10-TW laser installed at Daresbury | |
| Altarelli | From Third-to Fourth-Generation Light Sources: Free-Electron Lasers in the UV and X-ray Range | |
| Schlenvoigt et al. | Synchrotron radiation from laser-accelerated monoenergetic electrons | |
| Yampolsky et al. | Summary of Working Group 7: Radiation generation and advanced concepts | |
| Emma et al. | Summary of working group 6: Radiation generation, medical, and industrial applications | |
| Dobashi et al. | Development of compact hard X-ray source based on laser-electron collision using xband linac |