Characterization of Diamond with Buried Boron-Doped Layer Developed for Q-Switching an X-Ray Optical Cavity

Margraf, Rachel; Halavanau, Aliaksei; Huang, Zhirong; Ke, Feng; Krzywiński, Jacek; MacArthur, James; Marcus, Gabriel; Mo, Sung-Kwan; Ng, May Ling; Pradhan, Paresh; Robert, Aymeric; Robles, River; Sato, Takahiro; Ynsa, María Dolores; Zhong, Yong; Zhu, Diling

doi:10.18429/JACoW-IPAC2022-TUPOPT039

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RIS citation export for TUPOPT039: Characterization of Diamond with Buried Boron-Doped Layer Developed for Q-Switching an X-Ray Optical Cavity

TY  - CONF
AU  - Margraf, R.A.
AU  - Halavanau, A.
AU  - Huang, Z.
AU  - Ke, F.
AU  - Krzywiński, J.
AU  - MacArthur, J.P.
AU  - Marcus, G.
AU  - Mo, S.-K.
AU  - Ng, M.L.
AU  - Pradhan, P.
AU  - Robert, A.R.
AU  - Robles, R.
AU  - Sato, T.
AU  - Ynsa, M.D.
AU  - Zhong, Y.
AU  - Zhu, D.
ED  - Zimmermann, Frank
ED  - Tanaka, Hitoshi
ED  - Sudmuang, Porntip
ED  - Klysubun, Prapong
ED  - Sunwong, Prapaiwan
ED  - Chanwattana, Thakonwat
ED  - Petit-Jean-Genaz, Christine
ED  - Schaa, Volker R.W.
TI  - Characterization of Diamond with Buried Boron-Doped Layer Developed for Q-Switching an X-Ray Optical Cavity
J2  - Proc. of IPAC2022, Bangkok, Thailand, 12-17 June 2022
CY  - Bangkok, Thailand
T2  - International Particle Accelerator Conference
T3  - 13
LA  - english
AB  - X-ray Free-Electron Laser Oscillators (XFELOs) and X-ray Regenerative Amplifier FELs (XRAFELs) are currently in development to improve longitudinal coherence and spectral brightness of XFELs. These schemes lase an electron beam in an undulator within an optical cavity to produce X-rays. X-rays circulate in the cavity and interact with fresh electron bunches to seed the FEL process over multiple passes, producing progressively brighter and more spectrally pure X-rays. Typically, the optical cavities used are composed of Bragg-reflecting mirrors to provide high reflectivity and spectral filtering. This high reflectivity necessitates special techniques to out-couple X-rays from the cavity to deliver them to users. One method involves "Q-switching" the cavity by actively modifying the reflectivity of one Bragg-reflecting crystal. To control the crystal lattice constant and thus reflectivity, we use an infrared laser to heat a buried boron layer in a diamond crystal. Here, we build on earlier work in Krzywinski et al.* and present the current status of our Q-switching diamond, including implantation with 9 MeV boron ions, annealing, characterization and early tests.
PB  - JACoW Publishing
CP  - Geneva, Switzerland
SP  - 1097
EP  - 1100
KW  - cavity
KW  - FEL
KW  - laser
KW  - lattice
KW  - ECR
DA  - 2022/07
PY  - 2022
SN  - 2673-5490
SN  - 978-3-95450-227-1
DO  - doi:10.18429/JACoW-IPAC2022-TUPOPT039
UR  - https://jacow.org/ipac2022/papers/tupopt039.pdf
ER  -