Thermal loading on crystals in an X-ray free-electron laser oscillator
X-ray free electron laser oscillators (XFELO) is future light source to produce fully coherent hard X-ray pulses. The X-rays circulate in an optical cavity built from multiple Bragg reflecting mirrors, which has a high reflectance in a bandwidth of ten meV level. The X-ray crystal mirrors exposed to...
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| Main Authors | , |
| Format | Paper Journal Article |
| Language | English |
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15.04.2020
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| ISSN | 2331-8422 |
| DOI | 10.48550/arxiv.2004.07100 |
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| Abstract | X-ray free electron laser oscillators (XFELO) is future light source to produce fully coherent hard X-ray pulses. The X-rays circulate in an optical cavity built from multiple Bragg reflecting mirrors, which has a high reflectance in a bandwidth of ten meV level. The X-ray crystal mirrors exposed to intense X-ray beams in the cavity are subjects to thermal deformations that shift and distort the Bragg reflection. Therefore, the stability of the XFELO operation relies on the abilities of mirrors to preserve the Bragg reflection under such heat load. A new approach was used to analyze the heat load of mirrors and the XFELO operation. The essential light-matter interaction is simulated by the GEANT4 with a dedicated Bragg-reflection physical process to obtain the precise absorption information of the XFELO pulse in the crystals. The transient thermal conduction is analyzed by the finite-element analysis software upon the energy absorption information extract from GEANT4 simulation. A simplified heat-load model is then developed to integrate the heat load in the XFELO. With the help of the heat-load model, the analysis of XFELO operating with several cryogenically cooled diamond mirrors is conducted. The results indicate that the heat load would induce an oscillation when XFELO operates without enough cooling. |
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| AbstractList | Phys. Rev. Accel. Beams 23, 090704 (2020) X-ray free electron laser oscillators (XFELO) is future light source to
produce fully coherent hard X-ray pulses. The X-rays circulate in an optical
cavity built from multiple Bragg reflecting mirrors, which has a high
reflectance in a bandwidth of ten meV level. The X-ray crystal mirrors exposed
to intense X-ray beams in the cavity are subjects to thermal deformations that
shift and distort the Bragg reflection. Therefore, the stability of the XFELO
operation relies on the abilities of mirrors to preserve the Bragg reflection
under such heat load. A new approach was used to analyze the heat load of
mirrors and the XFELO operation. The essential light-matter interaction is
simulated by the GEANT4 with a dedicated Bragg-reflection physical process to
obtain the precise absorption information of the XFELO pulse in the crystals.
The transient thermal conduction is analyzed by the finite-element analysis
software upon the energy absorption information extract from GEANT4 simulation.
A simplified heat-load model is then developed to integrate the heat load in
the XFELO. With the help of the heat-load model, the analysis of XFELO
operating with several cryogenically cooled diamond mirrors is conducted. The
results indicate that the heat load would induce an oscillation when XFELO
operates without enough cooling. X-ray free electron laser oscillators (XFELO) is future light source to produce fully coherent hard X-ray pulses. The X-rays circulate in an optical cavity built from multiple Bragg reflecting mirrors, which has a high reflectance in a bandwidth of ten meV level. The X-ray crystal mirrors exposed to intense X-ray beams in the cavity are subjects to thermal deformations that shift and distort the Bragg reflection. Therefore, the stability of the XFELO operation relies on the abilities of mirrors to preserve the Bragg reflection under such heat load. A new approach was used to analyze the heat load of mirrors and the XFELO operation. The essential light-matter interaction is simulated by the GEANT4 with a dedicated Bragg-reflection physical process to obtain the precise absorption information of the XFELO pulse in the crystals. The transient thermal conduction is analyzed by the finite-element analysis software upon the energy absorption information extract from GEANT4 simulation. A simplified heat-load model is then developed to integrate the heat load in the XFELO. With the help of the heat-load model, the analysis of XFELO operating with several cryogenically cooled diamond mirrors is conducted. The results indicate that the heat load would induce an oscillation when XFELO operates without enough cooling. |
| Author | Huang, Nanshun Deng, Haixiao |
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| BackLink | https://doi.org/10.1103/PhysRevAccelBeams.23.090704$$DView published paper (Access to full text may be restricted) https://doi.org/10.48550/arXiv.2004.07100$$DView paper in arXiv |
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| Snippet | X-ray free electron laser oscillators (XFELO) is future light source to produce fully coherent hard X-ray pulses. The X-rays circulate in an optical cavity... Phys. Rev. Accel. Beams 23, 090704 (2020) X-ray free electron laser oscillators (XFELO) is future light source to produce fully coherent hard X-ray pulses. The... |
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| SubjectTerms | Computer simulation Crystals Diamonds Energy absorption Finite element method Free electron lasers Light sources Oscillators Physics - Accelerator Physics Reflection X-rays |
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| Title | Thermal loading on crystals in an X-ray free-electron laser oscillator |
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