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Radiotherapy quality assurance for the RTOG 0834/EORTC 26053-22054/NCIC CTG CEC.1/CATNON intergroup trial "concurrent and adjuvant temozolomide chemotherapy in newly diagnosed non-1p/19q deleted anaplastic glioma": individual case review analysi
Abrunhosa-Branquinho, A. N., Bar-Deroma, R., Collette, S., Clementel, E., Liu, Y., Hurkmans, C. W., … Weber, D. C. (2018). Radiotherapy quality assurance for the RTOG 0834/EORTC 26053-22054/NCIC CTG CEC.1/CATNON intergroup trial "concurrent and adjuvant temozolomide chemotherapy in newly diagnosed non-1p/19q deleted anaplastic glioma": individual case review analysis. Radiotherapy and Oncology, 127(2), 292-298. https://doi.org/10.1016/j.radonc.2018.03.013
Precise beam delivery for proton therapy with dynamic energy modulation
Actis, O., Mayor, A., Meer, D., & Weber, D. C. (2018). Precise beam delivery for proton therapy with dynamic energy modulation. In Journal of physics: conference series: Vol. 1067. 9th international particle accelerator conference, IPAC18 29 April to 4 May 2018, Vancouver, B.C., Canada. Applications of accelerators (p. 092002). https://doi.org/10.1088/1742-6596/1067/9/092002
Precise beam delivery for proton therapy with dynamic energy modulation
Actis, O., Mayor, A., Meer, D., & Weber, D. C. (2018). Precise beam delivery for proton therapy with dynamic energy modulation. In S. Koscielniak, T. Satogata, V. R. W. Schaa, & J. Thomson (Eds.), International particle accelerator conference: Vol. 9. Proceedings of the 9th international particle accelerator conference (pp. 540-542). https://doi.org/10.18429/JACoW-IPAC2018-MOPML059
Microscopic investigation of the weakly correlated noncentrosymmetric superconductor SrAuSi<sub>3</sub>
Barbero, N., Biswas, P. K., Isobe, M., Amato, A., Morenzoni, E., Hillier, A. D., … Shiroka, T. (2018). Microscopic investigation of the weakly correlated noncentrosymmetric superconductor SrAuSi3. Physical Review B, 97(2), 024501 (6 pp.). https://doi.org/10.1103/PhysRevB.97.024501
Chasing quantitative biases in neutron imaging with scintillator-camera detectors: a practical method with black body grids
Boillat, P., Carminati, C., Schmid, F., Grünzweig, C., Hovind, J., Kaestner, A., … Lehmann, E. H. (2018). Chasing quantitative biases in neutron imaging with scintillator-camera detectors: a practical method with black body grids. Optics Express, 26(12), 15769-15784. https://doi.org/10.1364/OE.26.015769
Radiation necrosis and white matter lesions in pediatric patients with brain tumors treated with pencil beam scanning proton therapy
Bojaxhiu, B., Ahlhelm, F., Walser, M., Placidi, L., Kliebsch, U., Mikroutsikos, L., … Weber, D. C. (2018). Radiation necrosis and white matter lesions in pediatric patients with brain tumors treated with pencil beam scanning proton therapy. International Journal of Radiation Oncology Biology Physics, 100(4), 987-996. https://doi.org/10.1016/j.ijrobp.2017.11.037
Relation of baseline neutrophil-to-lymphocyte ratio to survival and toxicity in head and neck cancer patients treated with (chemo-) radiation
Bojaxhiu, B., Templeton, A. J., Elicin, O., Shelan, M., Zaugg, K., Walser, M., … Dal Pra, A. (2018). Relation of baseline neutrophil-to-lymphocyte ratio to survival and toxicity in head and neck cancer patients treated with (chemo-) radiation. Radiation Oncology, 13(1), 216 (9 pp.). https://doi.org/10.1186/s13014-018-1159-y
Practice patterns of image guided particle therapy in Europe: a 2016 survey of the European Particle Therapy Network (EPTN)
Bolsi, A., Peroni, M., Amelio, D., Dasu, A., Stock, M., Toma-Dasu, I., … Hoffmann, A. (2018). Practice patterns of image guided particle therapy in Europe: a 2016 survey of the European Particle Therapy Network (EPTN). Radiotherapy and Oncology, 128(1), 4-8. https://doi.org/10.1016/j.radonc.2018.03.017
Validation of fast motion-including dose reconstruction for proton scanning therapy in the liver
Colvill, E., Petersen, J. B. B., Hansen, R., Worm, E., Skouboe, S., Høyer, M., & Poulsen, P. R. (2018). Validation of fast motion-including dose reconstruction for proton scanning therapy in the liver. Physics in Medicine and Biology, 63(22), 225021 (9 pp.). https://doi.org/10.1088/1361-6560/aaeae9
Consolidation and extension of the high-gradient LINAC RF technology at PSI
Craievich, P., Bopp, M., Braun, H., Citterio, A., Fitze, H., Garvey, T., … Zennaro, R. (2018). Consolidation and extension of the high-gradient LINAC RF technology at PSI. In G. Pei, Y. H. Chin, S. Fu, V. R. W. Schaa, & N. Zhao (Eds.), Linear accelerator conference: Vol. 29. Proceedings of the 29th linear accelerator conference (pp. 937-940). https://doi.org/10.18429/JACoW-LINAC2018-THPO115
Linac booster for high energy proton therapy and imaging
Degiovanni, A., Amaldi, U., Lomax, A. J., Schippers, J. M., Stingelin, L., & Bilbao de Mendizabal, J. (2018). Linac booster for high energy proton therapy and imaging. Physical Review Accelerators and Beams, 21(6), 064701 (7 pp.). https://doi.org/10.1103/PhysRevAccelBeams.21.064701
Automated knowledge-based intensity-modulated proton planning: an international multicenter benchmarking study
Delaney, A. R., Dong, L., Mascia, A., Zou, W., Zhang, Y., Yin, L., … Verbakel, W. F. A. R. (2018). Automated knowledge-based intensity-modulated proton planning: an international multicenter benchmarking study. Cancers, 10(11), 420 (15 pp.). https://doi.org/10.3390/cancers10110420
Lasers in FEL facilities
Divall, M. (2018). Lasers in FEL facilities. In R. Bailey (Ed.), CERN yellow reports: school proceedings: Vol. 1. Proceedings of the CAS - CERN accelerator school: free electron lasers and energy recovery linacs (pp. 327-346). https://doi.org/10.23730/CYRSP-2018-001.327
4D dose calculation for pencil beam scanning proton therapy of pancreatic cancer using repeated 4DMRI datasets
Dolde, K., Naumann, P., Dávid, C., Gnirs, R., Kachelrieß, M., Lomax, A. J., … Zhang, Y. (2018). 4D dose calculation for pencil beam scanning proton therapy of pancreatic cancer using repeated 4DMRI datasets. Physics in Medicine and Biology, 63(16), 165005 (10 pp.). https://doi.org/10.1088/1361-6560/aad43f
The EPTN consensus-based atlas for CT- and MR-based contouring in neuro-oncology
Eekers, D. B. P., in ‘t Ven, L., Roelofs, E., Postma, A., Alapetite, C., Burnet, N. G., … Troost, E. G. C. (2018). The EPTN consensus-based atlas for CT- and MR-based contouring in neuro-oncology. Radiotherapy and Oncology, 128(1), 37-43. https://doi.org/10.1016/j.radonc.2017.12.013
Deformable mirror for wavefront shaping of infrared radiation
Eichenberger, M., Giorgianni, F., Sauerwein, N., Vicario, C., & Hauri, C. P. (2018). Deformable mirror for wavefront shaping of infrared radiation. Optics Letters, 43(9), 2062-2065. https://doi.org/10.1364/OL.43.002062
A compact high-brightness accelerator-based EUV source for actinic mask inspection
Ekinci, Y., Garvey, T., Rivkin, L., Streun, A., & Wrulich, A. (2018). A compact high-brightness accelerator-based EUV source for actinic mask inspection. In Compact EUV & X-ray light sources. High-brightness sources and light-driven interactions (p. ET3B.5 (2 pp.). https://doi.org/10.1364/EUVXRAY.2018.ET3B.5
A high-brightness accelerator-based EUV source for metrology applications
Ekinci, Y., Garvey, T., Streun, A., Wrulich, A., & Rivkin, L. (2018). A high-brightness accelerator-based EUV source for metrology applications. In E. E. Gallagher & J. H. Rankin (Eds.), Proceedings of SPIE: Vol. 10810. Photomask technology 2018 (p. 108100W (9 pp.). https://doi.org/10.1117/12.2501930
Continuous beam scanning intensity control of a medical proton accelerator using a simulink generated FPGA gain scheduled controller
Fernandez Carmona, P., Minnig, V., Klimpki, G., Meer, D., Eichin, M., Bula, C., … Psoroulas, S. (2018). Continuous beam scanning intensity control of a medical proton accelerator using a simulink generated FPGA gain scheduled controller. In Y. S. Cheng, V. R. W. Schaa, P. C. Chiu, L. Li, C. Petit-Jean-Genaz, & Y. H. Liu (Eds.), International workshop on emerging technologies and scientific facilities controls: Vol. 12. PCaPAC 2018. International workshop on emerging technologies and scientific facilities controls (pp. 242-247). https://doi.org/10.18429/JACoW-PCaPAC2018-FRCC2
The ACHIP experimental chambers at the Paul Scherrer Institut
Ferrari, E., Ischebeck, R., Bednarzik, M., Bettoni, S., Borrelli, S., Braun, H. H., … Rivkin, L. (2018). The ACHIP experimental chambers at the Paul Scherrer Institut. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 907, 244-247. https://doi.org/10.1016/j.nima.2018.02.112
 

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