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SLS 2.0 storage ring. Technical design report
Braun, H., Garvey, T., Jörg, M., Ashton, A., Willmott, P., Kobler, R., … Zehnder, E. (2021). SLS 2.0 storage ring. Technical design report. (PSI Bericht, Report No.: 21-02). Paul Scherrer Institut.
FCC-ee: the lepton collider. Future Circular Collider conceptual design report volume 2
Abada, A., Abbrescia, M., AbdusSalam, S. S., Abdyukhanov, I., Abelleira Fernandez, J., Abramov, A., … FCC Collaboration (2019). FCC-ee: the lepton collider. Future Circular Collider conceptual design report volume 2. European Physical Journal Special Topics, 228(2), 261-623. https://doi.org/10.1140/epjst/e2019-900045-4
FCC-hh: the Hadron Collider. Future Circular Collider conceptual design report volume 3
Abada, A., Abbrescia, M., AbdusSalam, S. S., Abdyukhanov, I., Abelleira Fernandez, J., Abramov, A., … FCC Collaboration (2019). FCC-hh: the Hadron Collider. Future Circular Collider conceptual design report volume 3. European Physical Journal Special Topics, 228(4), 755-1107. https://doi.org/10.1140/epjst/e2019-900087-0
HE-LHC: the high-energy Large Hadron Collider. Future Circular Collider conceptual design report volume 4
Abada, A., Abbrescia, M., AbdusSalam, S. S., Abdyukhanov, I., Abelleira Fernandez, J., Abramov, A., … FCC Collaboration (2019). HE-LHC: the high-energy Large Hadron Collider. Future Circular Collider conceptual design report volume 4. European Physical Journal Special Topics, 228(5), 1109-1382. https://doi.org/10.1140/epjst/e2019-900088-6
Residual stress/strain analysis in UO<sub>2 </sub>spent fuel by synchrotron micro-beam X-ray diffraction
Kuri, G., Martin, M., & Bertsch, J. (2018). Residual stress/strain analysis in UO2 spent fuel by synchrotron micro-beam X-ray diffraction. In Topfuel 2018 (p. (5 pp.). European Nuclear Society.
Mechanical structure for the PSI Canted-Cosine-Theta (CCT) magnet program
Montenero, G., Auchmann, B., Brouwer, L., Calzolaio, C., Caspi, S., Rolando, G., & Sanfilippo, S. (2018). Mechanical structure for the PSI Canted-Cosine-Theta (CCT) magnet program. IEEE Transactions on Applied Superconductivity, 28(3), 4002805 (5 pp.). https://doi.org/10.1109/TASC.2017.2787596
Combined synchrotron-based high resolution FTIR and IR-diode laser supersonic jet spectroscopy of the chiral molecule CDBrClF
Albert, S., Keppler, K., Boudon, V., Lerch, P., & Quack, M. (2017). Combined synchrotron-based high resolution FTIR and IR-diode laser supersonic jet spectroscopy of the chiral molecule CDBrClF. Journal of Molecular Spectroscopy, 337, 105-123. https://doi.org/10.1016/j.jms.2017.03.004
Design of a superconducting longitudinal gradient bend magnet for the SLS upgrade
Calzolaio, C., Sanfilippo, S., Sidorov, S., Anghel, A., & Streun, A. (2017). Design of a superconducting longitudinal gradient bend magnet for the SLS upgrade. IEEE Transactions on Applied Superconductivity, 27(4), 4000305 (5 pp.). https://doi.org/10.1109/TASC.2016.2632103
Advanced process control tool for magnet measurements at PSI
Chevtsov, P., Vranković, V., & Wouters, C. (2017). Advanced process control tool for magnet measurements at PSI. In V. R. W. Schaa, I. Costa, D. Fernández, & O. Matilla (Eds.), Proceedings of the 16th international conference on accelerator and large experimental control systems (pp. 1934-1937). https://doi.org/10.18429/JACoW-ICALEPCS2017-THPHA211
Status of commissioning of Gantry 3 at the PSI PROSCAN facility
Koschik, A., Duppich, J., Eichin, M., Fernandez, P., Gerbershagen, A., Lomax, A., … Weber, D. C. (2017). Status of commissioning of Gantry 3 at the PSI PROSCAN facility. In V. R. W. Schaa, G. Arduini, M. Seidel, J. Pranke, & M. Lindroos (Eds.), Proceedings of the 8th international particle accelerator conference (pp. 4744-4746). https://doi.org/10.18429/JACoW-IPAC2017-THPVA125
Conceptual design of superconducting combined-function magnets for the next generation of beam cancer therapy gantry
Sanfilippo, S., Calzolaio, C., Anghel, A., Gerbershagen, A., & Schippers, J. M. (2017). Conceptual design of superconducting combined-function magnets for the next generation of beam cancer therapy gantry. In V. R. W. Schaa & M. V. Kuzin (Eds.), Proceedings of RuPAC2016 (pp. 138-140). https://doi.org/10.18429/JACoW-RUPAC2016-THCDMH01
Safety studies on vacuum insulated liquid helium cryostats
Weber, C., Henriques, A., Zoller, C., & Grohmann, S. (2017). Safety studies on vacuum insulated liquid helium cryostats. In IOP conference series: materials science and engineering: Vol. 278. Advances in cryogenic engineering: proceedings of the cryogenic engineering conference (CEC) 2017 (p. 012169 (8 pp.). https://doi.org/10.1088/1757-899X/278/1/012169
Calibration scheme for a new type of 3D Hall sensor
Wouters, C., Vranković, V., Chevtsov, P., & Hierold, C. (2017). Calibration scheme for a new type of 3D Hall sensor. Sensors and Actuators A: Physical, 257, 38-46. https://doi.org/10.1016/j.sna.2017.02.007
A combined Gigahertz and Terahertz (FTIR) spectroscopic investigation of meta-D-phenol: observation of tunnelling switching
Albert, S., Chen, Z., Fábri, C., Lerch, P., Prentner, R., & Quack, M. (2016). A combined Gigahertz and Terahertz (FTIR) spectroscopic investigation of meta-D-phenol: observation of tunnelling switching. Molecular Physics, 114(19), 2751-2768. https://doi.org/10.1080/00268976.2016.1226444
Synchrotron-based highest resolution terahertz spectroscopy of the <em>ν</em><sub>24</sub> band system of 1,2-dithiine (C<sub>4</sub>H<sub>4</sub>S<sub>2</sub>): a candidate for measuring the parity violating energy difference between enantiomers of chira
Albert, S., Arn, F., Bolotova, I., Chen, Z., Fábri, C., Grassi, G., … Zindel, D. (2016). Synchrotron-based highest resolution terahertz spectroscopy of the ν24 band system of 1,2-dithiine (C4H4S2): a candidate for measuring the parity violating energy difference between enantiomers of chiral molecules. Journal of Physical Chemistry Letters, 7(19), 3847-3853. https://doi.org/10.1021/acs.jpclett.6b01674
Preliminary magnetic design of a superconducting dipole for future compact scanning gantries for proton therapy
Calzolaio, C., Sanfilippo, S., Calvi, M., Gerbershagen, A., Negrazus, M., Schippers, M., & Seidel, M. (2016). Preliminary magnetic design of a superconducting dipole for future compact scanning gantries for proton therapy. IEEE Transactions on Applied Superconductivity, 26(3), 4401005 (5 pp.). https://doi.org/10.1109/TASC.2016.2524448
Magnetic determination of the current center line for the superconducting ITER toroidal field coils: results on a double-pancake prototype
Gabard, A., Lerch, P., Moigner, G. A., Sanfilippo, S., Buzio, M., & Foussat, A. (2016). Magnetic determination of the current center line for the superconducting ITER toroidal field coils: results on a double-pancake prototype. IEEE Transactions on Applied Superconductivity, 26(3), 4202904 (4 pp.). https://doi.org/10.1109/TASC.2016.2542365
The advantages and challenges of superconducting magnets in particle therapy
Gerbershagen, A., Calzolaio, C., Meer, D., Sanfilippo, S., & Schippers, M. (2016). The advantages and challenges of superconducting magnets in particle therapy. Superconductor Science and Technology, 29(8), 083001 (15 pp.). https://doi.org/10.1088/0953-2048/29/8/083001
PSI gantry 3: integration of a new gantry into an existing proton therapy facility
Koschik, A., Baumgarten, C., Bula, C., Duppich, J., Gerbershagen, A., Grossmann, M., … Welte, J. (2016). PSI gantry 3: integration of a new gantry into an existing proton therapy facility. In C. Petit-Jean-Genaz, D. E. Kim, K. S. Kim, I. S. Ko, & V. R. W. Schaa (Eds.), International particle accelerator conference: Vol. 7. IPAC'16. 7th international particle accelerator conference (pp. 1927-1929). https://doi.org/10.18429/JACoW-IPAC2016-TUPOY014
Commissioning experience and beam physics measurements at the SwissFEL Injector Test Facility
Schietinger, T., Pedrozzi, M., Aiba, M., Arsov, V., Bettoni, S., Beutner, B., … Zimoch, D. (2016). Commissioning experience and beam physics measurements at the SwissFEL Injector Test Facility. Physical Review Accelerators and Beams, 19(10), 100702 (61 pp.). https://doi.org/10.1103/PhysRevAccelBeams.19.100702
 

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