Your search keyword '"Negrazus, M."' showing total 21 results

1. Electromechanical design of a 16-T CCT twin-aperture dipole for FCC

Author

Auchmann, B, Brouwer, L, Caspi, S, Gao, J, Montenero, G, Negrazus, M, Rolando, G, and Sanfilippo, S

Subjects

FCC, CCT, Nb3Sn accelerator magnet, General Physics, Electrical and Electronic Engineering, Condensed Matter Physics, Materials Engineering

Abstract

© 2017 EU. Canted-cosine-theta (CCT) technology has been studied for its suitability for a future-circular-collider (FCC) main dipole in terms of magnetic and mechanical performance, elec-trothermal protectability, as well as efficiency. In this paper, we present lessons learnt from our search for efficient CCT solutions by means of two-dimensional (2-D) magnetic and mechanical simulations, discuss the 3-D periodic mechanical model, as well as 3-D electromagnetic analysis of the end regions. Temperature and voltage distributions during a quench under simplifying assumptions are discussed, and the magnet’s efficiency is compared to that of other contenders in the FCC design study. The results qualify the CCT design as a contender for the FCC main dipole.

Published

2018

2. A compact, large-diameter adiabatic spinflipper for ultracold neutrons

Author

Geltenbort, P., Göltl, L., Henneck, R., Kirch, K., Knecht, A., Kuźniak, M., Lauss, B., Lefort, T., Mtchedlishvili, A., Meier, M., Negrazus, M., Petzoldt, G., Ruettimann, P., Vrankovic, V., and Zsigmond, G.

Published

2009

3. The 1.5 GeV harmonic double-sided microtron at Mainz University

Author

Kaiser, K.-H., Aulenbacher, K., Chubarov, O., Dehn, M., Euteneuer, H., Hagenbuck, F., Herr, R., Jankowiak, A., Jennewein, P., Kreidel, H.-J., Ludwig-Mertin, U., Negrazus, M., Ratschow, S., Schumann, St., Seidl, M., Stephan, G., and Thomas, A.

Published

2008

4. Magnet design and testing for the 250 MeV injector of the SwissFEL at the Paul Scherrer Institute

Author

Sanfilippo, S., Negrazus, M., Vrankovic, V., Sidorov, S., Gabard, A., Glowa, N.H., Kim, Y.J., Ganter, R., Pedrozzi, M., and Braun, H.

Subjects

Magnetic fields -- Measurement, Superconducting magnets -- Design and construction, Superconducting magnets -- Testing, Synchrotron radiation sources -- Design and construction, Technical institutes -- Research, Business, Electronics, Electronics and electrical industries

Published

2010

5. Magnetic measurements and commissioning of the fast ramped 90 degrees bending magnet in the PROSCAN Gantry 2 Project at PSI

Author

Gabard, A., Negrazus, M., Vrankovic, V., and George, D.

Subjects

Bending -- Analysis, Eddy currents (Electric) -- Measurement, Radiotherapy -- Innovations, Superconducting magnets -- Design and construction, Superconducting magnets -- Mechanical properties, Business, Electronics, Electronics and electrical industries

Published

2010

6. Longitudinal Gradient Bend Magnets for the Upgrade of the Swiss Light Source Storage Ring

Author

Calzolaio, C., primary, Gabard, A., additional, Lerch, Ph., additional, Montenero, G., additional, Negrazus, M., additional, Sanfilippo, S., additional, Sidorov, S., additional, and Vrankovic, V., additional

Published

2020

7. A novel apparatus for the investigation of material properties for the storage of ultracold neutrons

Author

Bryś, T., Daum, M., Fierlinger, P., Geltenbort, P., George, D., Gupta, M., Henneck, R., Heule, S., Horvat, M., Kasprzak, M., Kirch, K., Kohlik, K., Negrazus, M., Pichlmaier, A., Straumann, U., Vrankovic, V., and Wermelinger, C.

Published

2005

8. Design and Magnetic Performance of Small Aperture Prototype Quadrupoles for the SwissFEL at the Paul Scherrer Institut

Author

Sanfilippo, S., primary, Vrankovic, V., additional, Negrazus, M., additional, Sidorov, S., additional, Deckardt, R., additional, Felder, R., additional, Reiche, S., additional, Aiba, M., additional, Ganter, R., additional, Lohl, F., additional, Pedrozzi, M., additional, Braun, H., additional, Buzio, M., additional, and Walckiers, L., additional

Published

2014

9. Magnet Design and Measurement Results of the Solenoids and Bunch Compressor Bending Magnets of the SwissFEL Test Facility

Author

Negrazus, M., primary, Gabard, A., additional, Sanfilippo, S., additional, Sidorov, S., additional, Vrankovic, V., additional, Kim, Y. J., additional, Ganter, R., additional, and Pedrozzi, M., additional

Published

2012

10. Design Study of a 3.5 T Superconducting Sector Magnet in a 450 MeV/nucl Booster Cyclotron for Carbon Ion Therapy

Author

Sanfilippo, S., primary, Schippers, J. M., additional, Negrazus, M., additional, Gabard, A., additional, Calvi, M., additional, and Vrankovic, V., additional

Published

2011

11. Magnetic Measurements and Commissioning of the Fast Ramped 90$^{\circ}$ Bending Magnet in the PROSCAN Gantry 2 Project at PSI

Author

Gabard, A, primary, Negrazus, M, additional, Vrankovic, V, additional, and George, D, additional

Published

2010

12. The 1.5GeV harmonic double-sided microtron at Mainz University

Author

Kaiser, K.-H., primary, Aulenbacher, K., additional, Chubarov, O., additional, Dehn, M., additional, Euteneuer, H., additional, Hagenbuck, F., additional, Herr, R., additional, Jankowiak, A., additional, Jennewein, P., additional, Kreidel, H.-J., additional, Ludwig-Mertin, U., additional, Negrazus, M., additional, Ratschow, S., additional, Schumann, St., additional, Seidl, M., additional, Stephan, G., additional, and Thomas, A., additional

Published

2008

13. The Fast Ramped Bending Magnets for the Gantry 2 at PSI

Author

Negrazus, M., primary, Gabard, A., additional, George, D., additional, and Vrankovic, V., additional

Published

2008

14. Eddy Current Reduction in Fast Ramped Bending Magnets

Author

Negrazus, M., primary, George, D., additional, Vrankovic, V., additional, and Werner, M., additional

Published

2006

15. Possible Fel Projects At Delta

Author

Negrazus, M, Brinker, F, Friedl, Jeffrey, Marquardt, N, Nölle, D, Wille, K, and Ziemann, V

Subjects

Accelerators and Storage Rings

Published

1990

16. A slotted-pipe kicker for high-current storage rings

Author

Blokesch, G., primary, Negrazus, M., additional, and Wille, K., additional

Published

1994

17. Delta, A New Storage-Ring-FEL Facility At The University Of Dortmund.

Author

Nolle, D., Brinker, F., Negrazus, M., Schirmer, D., and Wille, K.

Published

1989

18. DELTA, a new storage-ring-FEL facility at the University of Dortmund

Author

Nölle, D., primary, Brinker, F., additional, Negrazus, M., additional, Schirmer, D., additional, and Wille, K., additional

Published

1990

19. Status of SwissFEL undulator lines

Author

Ganter, R., Aiba, M., Braun, H. -H, Calvi, M., Heimgartner, P., Joehri, H., Janzi, G., Kobler, R., Loehl, F., Negrazus, M., Prat, E., Patthey, L., Sven Reiche, Sanfilippo, S., Schaer, U., Schmidt, T., Schulz, L., Vrankovic, V., and Wickstroem, J.

20. Delta, A New Storage-Ring-FEL Facility At The University Of Dortmund

Author

Nolle, D., primary, Brinker, F., additional, Negrazus, M., additional, Schirmer, D., additional, and Wille, K., additional

21. The PSI Gantry 2: a second generation proton scanning gantry.

Author

Pedroni E, Bearpark R, Böhringer T, Coray A, Duppich J, Forss S, George D, Grossmann M, Goitein G, Hilbes C, Jermann M, Lin S, Lomax A, Negrazus M, Schippers M, and Kotle G

Subjects

Equipment Design, Humans, Cyclotrons, Neoplasms radiotherapy, Proton Therapy, Radiotherapy, High-Energy instrumentation, Radiotherapy, High-Energy methods

Abstract

PSI is still the only location in which proton therapy is applied using a dynamic beam scanning technique on a very compact gantry. Recently, this system is also being used for the application of intensity-modulated proton therapy (IMPT). This novel technical development and the success of the proton therapy project altogether have led PSI in Year 2000 to further expand the activities in this field by launching the project PROSCAN. The first step is the installation of a dedicated commercial superconducting cyclotron of a novel type. The second step is the development of a new gantry, Gantry 2. For Gantry 2 we have chosen an iso-centric compact gantry layout. The diameter of the gantry is limited to 7.5 m, less than in other gantry systems (approximately 10-12 m). The space in the treatment room is comfortably large, and the access on a fixed floor is possible any time around the patient table. Through the availability of a faster scanning system, it will be possible to treat the target volume repeatedly in the same session. For this purpose, the dynamic control of the beam intensity at the ion source and the dynamic variation of the beam energy will be used directly for the shaping of the dose.

Published

2004