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[n] K. Koyama, M. Uesaka, S. Kurimura, H. Okamoto, S. Otsuki, and M. Yoshida, “Laser Driven Dielectric Accelerator in the Non-relativistic Energy Region”, in Proc. IPAC'16, Busan, Korea, May 2016, pp. 1585-1587. doi:10.18429/JACoW-IPAC2016-TUPMY017
[n] Z. Sun et al., “Surface Oxides on Nb and Nb3Sn Surfaces: Toward a Deeper Understanding”, in Proc. SRF'21, East Lansing, MI, USA, Jun.-Jul. 2021, pp. 836. doi:10.18429/JACoW-SRF2021-THPTEV004
[n] M. C. Lin, C. Nieter, D. N. Smithe, and P. Stoltz, “Accurate and Efficient Study of RF Cavities by Using a Conformal FDTD Method”, in Proc. PAC'09, Vancouver, Canada, May 2009, paper FR5PFP083, pp. 4503-4503.
[n] Z. Sun, Z. Baraissov, M. Liepe, D. A. Muller, T. E. Oseroff, and M. O. Thompson, “Materials Design for Superconducting RF Cavities: Electroplating Sn, Zr, and Au onto Nb and and Chemical Vapor Deposition”, in Proc. SRF'23, Grand Rapids, MI, USA, Jun. 2023, pp. 401-404. doi:10.18429/JACoW-SRF2023-TUPTB006
[n] J. Branlard, V. Ayvazyan, O. Hensler, H. Schlarb, Ch. Schmidt, and W. Cichalewski, “Superconducting Cavity Quench Detection and Prevention for the European XFEL”, in Proc. ICALEPCS'13, San Francisco, CA, USA, Oct. 2013, paper THPPC072, pp. 1239-1241.
[n] E. Kako et al., “Development of Superconducting Cavities for High Gradient Applications”, in Proc. EPAC'92, Berlin, Germany, Mar. 1992, pp. 1272-1275.
[n] W. Lau et al., “Properties of superradiant spontaneous THz undulator radiation by an RF compressed electron beam”, in Proc. IPAC'23, Venice, Italy, May 2023, pp. 1877-1880. doi:10.18429/JACoW-IPAC2023-TUPL055
[n] C. Liu, S.-H. Chen, W.-K. Lau, W.-Y. Chiang, and S.-Y. Teng, “Measurement of slice energy spread of a high brightness electron beam using a passive dielectric-lined waveguide structure”, presented at the IPAC'25, Taipei, Taiwan, Jun. 2025, paper THPM067, this conference.
[n] A. Shishlo and N. Malitsky, “A Parallel Extension of the UAL Environment”, in Proc. PAC'01, Chicago, IL, USA, Jun. 2001, paper RPAH311, pp. 3197-3199.
[n] R. L. York and R. R. Stevens, “A Cusped Field H- Ion Source for LAMPF”, in Proc. PAC'83, Santa Fe, NM, USA, Mar. 1983, pp. 2705-2708.
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References
- K. Koyama, M. Uesaka, S. Kurimura, H. Okamoto, S. Otsuki, and M. Yoshida, “Laser Driven Dielectric Accelerator in the Non-relativistic Energy Region”, in Proc. 7th Int. Particle Accelerator Conf. (IPAC'16), Busan, Korea, May 2016, pp. 1585-1587.
- Z. Sun et al., “Surface Oxides on Nb and Nb3Sn Surfaces: Toward a Deeper Understanding”, in Proc. 20th International Conference on RF Superconductivity (SRF'21), East Lansing, MI, USA, Jun.-Jul. 2021, pp. 836.
- M. C. Lin, C. Nieter, D. N. Smithe, and P. Stoltz, “Accurate and Efficient Study of RF Cavities by Using a Conformal FDTD Method”, in Proc. 23rd Particle Accelerator Conf. (PAC'09), Vancouver, Canada, May 2009, paper FR5PFP083, pp. 4503-4503.
- Z. Sun, Z. Baraissov, M. Liepe, D. A. Muller, T. E. Oseroff, and M. O. Thompson, “Materials Design for Superconducting RF Cavities: Electroplating Sn, Zr, and Au onto Nb and and Chemical Vapor Deposition”, in Proc. 21th Int. Conf. RF Superconductivity (SRF'23), Grand Rapids, MI, USA, Jun. 2023, paper TUPTB006, pp. 401-404.
- J. Branlard, V. Ayvazyan, O. Hensler, H. Schlarb, Ch. Schmidt, and W. Cichalewski, “Superconducting Cavity Quench Detection and Prevention for the European XFEL”, in Proc. 14th Int. Conf. on Accelerator and Large Experimental Physics Control Systems (ICALEPCS'13), San Francisco, CA, USA, Oct. 2013, paper THPPC072, pp. 1239-1241.
- E. Kako et al., “Development of Superconducting Cavities for High Gradient Applications”, in Proc. 3rd European Particle Accelerator Conf. (EPAC'92), Berlin, Germany, Mar. 1992, pp. 1272-1275.
- W. Lau et al., “Properties of superradiant spontaneous THz undulator radiation by an RF compressed electron beam”, in Proc. 14th Int. Particle Accelerator Conf. (IPAC'23), Venice, Italy, May 2023, paper TUPL055, pp. 1877-1880.
- C. Liu, S.-H. Chen, W.-K. Lau, W.-Y. Chiang, and S.-Y. Teng, “Measurement of slice energy spread of a high brightness electron beam using a passive dielectric-lined waveguide structure”, presented at the 16th Int. Particle Accelerator Conf. (IPAC'25), Taipei, Taiwan, Jun. 2025, paper THPM067, this conference.
- A. Shishlo and N. Malitsky, “A Parallel Extension of the UAL Environment”, in Proc. 19th Particle Accelerator Conf. (PAC'01), Chicago, IL, USA, Jun. 2001, paper RPAH311, pp. 3197-3199.
- R. L. York and R. R. Stevens, “A Cusped Field H- Ion Source for LAMPF”, in Proc. 10th Particle Accelerator Conf. (PAC'83), Santa Fe, NM, USA, Mar. 1983, pp. 2705-2708.
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