Papers

Index

RFgun Optics

- Tau-Charm Factory

- LHC Optics and Upgrade

- Super Proton Synchrotron (SPS)

- Synchrotron Radiation

- Neutrino Factories

- Future Linear Colliders

- High-Gradient RF Structure Studies

- Medical Physics

- Outreach

RFgun Optics

  1. A. Faus-Golfe, Preliminary study of RF gun transport line LAL/SERA 91-259 and CANDELA Note 20.
  2. A Faus-Golfe, Rematching of CANDELA transport line to compensate space charge effects LAL/SERA 91-287 and CANDELA Note 22.

Tau-Charm Factory

  1. A. Faus-Golfe and J. Le Duff, A versatile lattice for a Tau-Charm Factory that includes a Monochromatization scheme. LAL/RT 92-01.
  2. A. Faus-Golfe and J. Le Duff, A Versatile lattice for a Tau-Charm Factory that includes a Monochromatization scheme (Low-Emittance) and a Standard scheme (High-Emittance). LAL/RT 93-07.
  3. A. Faus-Golfe and J. Le Duff, A Versatile TBA lattice for a Tau-Charm Factory with and without Beam Monochromatization. LAL/RT 94-07.
  4. A. Faus-Golfe and J. Le Duff, Versatile DBA and TBA lattices for a Tau-Charm Factory with and without beam Monochromatization. NIM A 372 (1996) 6-18.

LHC Optics and Upgrade

  1. A. Faus-Golfe, Minimization of the ramp-induced non-linear field imperfections in LHC. CERN LHC Project Note 9, 1995.
  2. A. Faus-Golfe, Looking for a symmetric LHC low-beta Insertion. CERN SL/Note 95-70(AP) and LHC Note 336.
  3. A. Faus-Golfe, J.P. Koutchouk and  A. Verdier, Analysis and Improvement of the Dispersion Matching in LHC. CERN LHC Project Note 32, 1996.
  4. A. Faus-Golfe and A. Verdier, Dynamic Aperture Limitations of the LHC in Physics Conditions due to Low-beta insertions. CERN LHC Project Report 13, 1996.
  5. A. Faus-Golfe, J.P. Koutchouk, A. Verdier and S. Weisz, Modular optical design of the LHC experimental insertions. CERN LHC Project Report 14, 1996.
  6. L. Bottura, A. Faus-Golfe, L. Walckiers and R. Wolf, Field quality of the main dipoles magnets for the LHC accelerator. CERN LHC Project Report 17, 1996.
  7. R. Bartolini, A.Faus-Golfe, M. Giovannozzi, W. Scandale and E. Todesco, Early indicators of long term stability in Hadron Colliders. CERN LHC Project Report 41, 1996.
  8. A. Faus-Golfe and A. Verdier, Short term tracking for the influence of b10 , b14 and b18 in the arc quadrupoles at  injection. CERN SL/Note 96-48(AP).
  9. A. Faus-Golfe and A. Verdier, Medium term tracking for the influence of b14 in the LHC low-beta quadrupoles at  collision.  CERN SL/Note 96-67(AP).
  10. A. Faus-Golfe and A. Verdier, Residual dispersion due to crossing angle in collision. CERN SL/Note 96-71(AP).
  11. M. Böge, A. Faus-Golfe, J. Gareyte, H. Grote, J.P. Koutchouk, J. Miles,Q. Qing, T. Risselada, F. Schmidt and  S. Weisz, Overview of the LHC Dynamic Aperture Studies. CERN LHC Project Report 106, 1997.
  12. A. Faus-Golfe, H. Grote, J.P. Koutchouk, T. Risselada, A. Verdier and S. Weisz, A more robust and flexible lattice for the LHC. CERN LHC Project Report 107, 1997.
  13. A. Faus-Golfe and A. Verdier, Multipole Compensation in the LHC Low-beta Insertions. CERN LHC Project Report 116, 1997.
  14. W. Kienzle et al., TOTEM: Total Cross section, Elastic Scattering and Diffraction Dissociation at the LHC. CERN/LHCC 97-49 LHCC/I11.
  15. A. Faus-Golfe, Test of symplectic lumps in MAD8. CERN SL/Note 98-010(AP).
  16. A. Faus-Golfe and A. Verdier, On the importance of the location of the multipoles correctors in the LHC low-beta insertions. CERN SL/Note 98-011(AP).
  17. A. Faus-Golfe, Study of a high-beta insertion optics for the TOTEM experiment at the LHC Version 5.0: the case of IR1 and IR5. CERN LHC Project Note 145 and IFIC98-49.
  18. A. Faus-Golfe, Study of a high-beta insertion optics for the TOTEM experiment at the LHC Version 5.0: the case of IR2 and IR8. CERN LHC Project Note 152.
  19. W.Kienzle et al., Technical Proposal of TOTEM: Total Cross Section, Elastic Scattering and Diffraction Dissociation at the LHC. CERN LHCC99-7, LHCC/P5.
  20. J.Velasco, A.Gallegos-Cruz, M. Alvarez-Madrigal, A. Faus-Golfe and A. Sánchez-Hertz, spptot Estimations at very High Energies. IFIC/99-28 and hep-ph/9910484.
  21. A. Faus-Golfe, Requirements for running the TOTEM experiment at 900 GeV per beam: the case of IR1 and IR5. IFIC/99-36.
  22. A. Faus-Golfe, Update of a high-beta insertion optics for the TOTEM experiment in IR1 and IR5 for Ring 1 of the LHC Version 6.-2. IFIC/99-57.
  23. A. Faus-Golfe, Running the TOTEM experiment at 900 GeV per beam (Tevatron energy) in IR1 and   IR5 for LHC Version 6.0. CERN LHC. LHC Project Note 206.
  24. A. Faus-Golfe, Optimized high-beta insertion optics for the TOTEM experiment in IR1 and IR5 for Ring 1 and Ring 2 of the LHC Version 6.0. CERN LHC Project Note 207.
  25. A. Faus-Golfe, Optimized high-beta insertion optics for IR1 and IR5 for the TOTEM experiment at different energies of the LHC Version 6.0. IFIC/0035.
  26. A.Faus-Golfe, M. Haguenauer and J. Velasco, Precise Measurement of the Total Cross Section and the Coulomb Scattering at the LHC. IFIC/0036 and hep-ex/0102011.
  27. J. Pérez-Peraza, J. Velasco, A. Gallegos-Cruz, M. Alvarez-Madrigal, A. Faus-Golfe and A. Sánchez-Hertz, Prediction of Proton-Proton Total Cross Sections with highly confident uncertainty bound. IFIC/0059.
  28. J.Pérez-Peraza, J.Velasco, A.Gallegos-Cruz, M. Alvarez-Madrigal, A. Faus-Golfe and A. Sánchez-Hertz, Parametrization of Proton-Proton Total Cross Sections from 10 GeV to 100 TeV. hep-ph/0011167 and IFIC/0058.
  29. J.Pérez-Peraza,, A.Gallegos-Cruz, M. Alvarez-Madrigal,  A. Faus-Golfe,  A. Sánchez-Hertz and  J.Velasco, Proton-Proton Total Cross Section up to Ös@ 100 TeV within the frame of a Multiple Diffraction model. IFIC 03-17.
  30. J.Pérez-Peraza,, A.Gallegos-Cruz, M. Alvarez-Madrigal, A.Faus-Golfe,  A. Sánchez-Hertz and  J.Velasco, The Forecasting Prediction Technique for Error Bands: the case of hadronic total cross-sections at high energies. IFIC 03-16.
  31. A. Faus-Golfe  and  A. Verdier, Optics Studies for Diffractive Physics at the LHC. LHC Project Report 601.
  32. A. Faus-Golfe, M. Haguenauer and  J. Velasco, Luminosity determination using Coulomb Scattering at  the LHC. IFIC 03-11.
  33. A. Faus-Golfe  and A. Verdier, High-beta and very high-beta optics studies for LHC. LHC Project Note 357.
  34. A. Faus-Golfe, J. Resta and F. Zimmermann. Optics Design for a Nonlinear Collimation in the LHC. CARE-Conf-05-002-HHH (2005). and CERN Yellow Report 2005-006.
  35. A. Faus-Golfe, J. Resta, R. Assmann, S. Redaelli, G. Robert-Demolaize, D. Schulte  and F. Zimmermann. Exploring a Nonlinear Collimation System for the LHC. PAC 05 and LHC. Project Report 842(2005).
  36. R. Assmann, A. Faus-Golfe, S. Redaelli, J. Resta, G. Robert-Demolaize, D. Schulte and F. Zimmermann. An alternative Nonlinear Collimation System for the LHC. EPAC 06 and LHC Project Report 939 (2006).
  37. A. Faus-Golfe, J.Resta and F. Zimmermann. LHC Impedance Reduction by Nonlinear Collimation. PAC 07.
  38. LHCf Collaboration, Astroparticle physics at LHCf Experiment ready data taking. NIM A 612 (2010) 451-454.

Super Proton Synchrotron (SPS)

  1. A. Faus-Golfe, F. Schmidt and R. Tomás, Third experiment to measure Resonant Driving Terms in the SPS CERN. SL-Note-2000-041 MD.
  2. A. Faus-Golfe, F. Schmidt and R. Tomás, Resonance Driving Terms experiments in the SPS at 26 GeV during 2000. SL-Note-2001-024 MD.
  3. A. Faus-Golfe, F.Schmidt and R. Tomás, Resonance Driving Terms experiments in the SPS at 120 GeV during 2000. CERN SL-Note-2001-027 MD.
  4. A. Faus-Golfe, F.Schmidt and R. Tomás, Measurement of Resonance Driving Terms. CERN SL 2001-039(AP).
  5. G. Arduini, A. Faus-Golfe and F. Zimmermann, SPS Measurements and Modelling of Nonlinear Chromaticity and Detuning  with Amplitude at 26 GeV. CERN SL Note 2001-030 MD.
  6. G. Arduini, P. Collier, A. Faus-Golfe and F. Zimmermann, 2001 SPS Measurements and Modelling of Nonlinear Chromaticity and Detuning  with Amplitude at 26 GeV. CERN SL Note 2001-049 MD.
  7. G. Arduini, P. Collier, A. Faus-Golfe  and  F. Zimmerman, Modelling Nonlinear Optics in the CERN SPS. CERN-SL-2002-036(AP).
  8. G. Arduini,  A. Faus-Golfe, N. Iida, R. Tomás and F. Zimmermann, 2002 Nonlinear Optics Measurements and Modelling for the SPS at 26 GeV. CERN AB-Note-2003-025 (ABP).
  9. G. Arduini,  A. Faus-Golfe and R. Tomás, Study of the effect of restoring the original SPS lattice sextupoles configuration on single-particle stability. CERN AB-Note-2003-042 (ABP).
  10. A. Faus-Golfe, R. Tomás  and F. Zimmermann, 2003-2004 Nonlinear Optics Measurements and Modelling of the CERN SPS. PAC 05.
  11. M. Benedikt, A. Faus-Golfe, F. Schmidt,  R. Tomas and P. Urschütz , Driving Terms experiments at CERN. Phys. Rev. ST Accel. Beams 10, 034002 (2007).
  12. G. Arduini, R. Calaga, A.  Faus-Golfe,  G. Rumolo, R. Tomás and F. Zimmermann, Improved Algorithms to Determine  the Non-Linear Optics model of the SPS from Non-Linear Chromaticity. PAC 07.

Synchrotron Radiation

  1. A. Faus-Golfe, An Alternative Proposed Booster for the LSB. LSB/BOOS/01-97.

Neutrino Factories

  1. M.G. Catanesi et al., Proposal to study Hadron Production for the Neutrino Factory and for the Atmospheric Neutrino flux. CERN-SPSC-99-35.

Future Linear Colliders

  1. A. Faus-Golfe  and  F. Zimmermann, A Nonlinear Collimation System for CLIC. CERN-SL-2002-032(AP) and CLIC Note 520.
  2. M.Aleksa, R. Assmann, G.A. Blair, H. Burkhardt,  A. Faus-Golfe, S. Redaelli, T. Risselada, S. Russenschuck, D. Schulte and F. Zimmermann, Design Status of the CLIC Beam Delivery System. CERN SL 2002-031 (AP) and CLIC Note 521.
  3. R. Assmann, G. A. Blair, H. Braun, H. Burkhardt,  R. Corsini, A. Faus-Golfe, S. Redaelli, D. Schulte, M. Velasco and F. Zimmermann, Beam Dynamics Studies   and Advanced Accelerator Research at CTF3: Compact Final Focus, Laser Compton Scattering, Plasmas, etc. CLIC Note 549 (2003).
  4. R. Assmann, H. Burkhardt, S. Fartoukh, A. Faus-Golfe, J. B. Jeanneret, J. Pancin, S. Redaelli, T. Risselada, D. Schulte, H. J. Schreiber and F. Zimmermann, Collimation for CLIC. CERN AB 2003-075 and CLIC Note 579.
  5. A. Faus-Golfe, J. Resta and F. Zimmermann. Nonlinear Collimation. CARE Note 2004-015-ELAN.
  6. T. Asaka, A. Faus-Golfe, J. Resta,  D. Schulte  and F. Zimmermann. Alternatives Otics Design: Nonlinear   Collimation System. CLIC Note 647 and EUROTeV Report 2005-027-1.
  7. C. Alabau, P. Bambade and A. Faus-Golfe. Luminosity, beamstrahlung energy loss and beam-beam deflections for e+e- and e-e- collisions at the ILC with 500 GeV and varying transverse beam sizes. CARE/ELAN Document-2005-020 and LAL/RT 06-01.
  8. C. Alabau, R. Appleby, P. Bambade, O. Dadoun and A. Faus-Golfe. Optimization of the e-e- option at the ILC. EURO-TeV-Report-2006-067, CARE/ELAN Document-2006-007, LAL/RT 06-08, EPAC 2006, p. 685-687.
  9. A.  Faus-Golfe, J.Resta and F. Zimmermann. Nonlinear Collimation in Linear and Circular Colliders. EPAC 06, Eurotev Report 2006-064-1 and CARE-Conf-06-010-HHH.
  10. M. Alabau Pons, P. Bambade, A. Faus-Golfe, A. Latina and D. Schulte. Comparison of ILC fast beam-beam feedback performance in the e-e- and e+e- modes of operation. PAC07 p. 2832 and EURO-TeV-Report-2007-053.
  11. J.J. Garcia-Garrigos, A. Faus-Golfe and J.V. Civera Navarrete. Design and Construction of an Inductive Pick-up for Beam Position Monitoring in the Test Beam Line of the CTF3. EPAC 08.
  12. M. Alabau, A. Faus-Golfe, P. Bambade, J. Brossard, R. Appleby, A. Scarfe, J. Jones, S. Kuroda, M. Woodley, F. Zimmermann. Study of Abnormal Vertical Emittance Growth in ATF Extraction Line. EPAC 08.
  13. M. Alabau, A. Faus-Golfe, P. Bambade, G. Le Meur and F. Touze. Extraction Line Modeling of the shared magnets of the ATF Extraction Line. CARE/ELAN Document-2008-013, ATF Report 08-13
  14. M. Alabau, A. Faus-Golfe and  P. Bambade, Tracking Simulation Studies on the Vertical Emittance Growth in the ATF Extraction Line. CARE/ELAN Document-2008-014, ATF Report 08-14.
  15. M. Alabau, A. Faus-Golfe, P. Bambade,  S. Kuroda and  M. Woodley, Experimental Studies Analysis on the Vertical Emittance Growth in the ATF Extraction Line in 2007-2008. CARE/ELAN Document-2008-015, ATF Report 08-15.
  16. M. Alabau Pons, A. Faus-Golfe, P. Bambade, G. Le Meur, F. Touze, M. Woodley, S. Kuroda, KEK, Effect of the Non-linear Magnetic Fields on the Emittance Growth in the  ATF Extraction Line.  PAC09.
  17. C. Blanch-Gutierrez, J.V. Civera-Navarrete, A. Faus-Golfe, J.J. Garcia-Garrigos, Construction and Characterization of the Inductive Pick-uu series for Beam Position Monitoring in the TBL line of the CTF3 at CERN. PAC 09.
  18. C. Blanch-Gutierrez, J.V. Civera-Navarrete, A. Faus-Golfe, J.J. Garcıa-Garrigos, Characterization tests of the Beam Position Monitor Series Production for the TBL line of the CTF3 at CERN. DIPAC09.
  19. ILD Collaboration, The International Large Detector. DESY 2009-87, FERMILAB PUB 09-682-E, KEK Report 2009-6.
  20. ATF Collaboration, Present status of the final focus beam line at the KEK Accelerator Test Facility. Physical Review Special Topics Accelerators and Beams 13, 042801 (2010).
  21. ATF collaboration, Instrumentation for the ATF2 Facility. IPAC10.
  22. J. Alabau Gozalvo, C. Blanch, A. Faus-Golfe, J.V. Civera, J.J. Garcia-Garrigos, D. McCormick, G. White, J. Cruz, Multi Optical Transition Radiation System for ATF2. IPAC10.
  23. C. Blanch, A. Faus-Golfe, J.V. Civera, J.J. Garcia-Garrigos, Development and Test Benchmarks of the Beam Position Monitor series fort he TBL line of the CTF3 at CERN. IPAC10.
  24. E. Adli, S.Dobert, R. Lillestol, M. Olvegaard, I. Syratchev, D. Carrillo, F. Toral, A. Faus-Golfe, J.J. Garcia-Garrigos, G. Montoro, Commissioning Status of the Decelerator Test Beam Line in CTF3. LINAC10.

High-Gradient RF Structure Studies

  1. S. Verdú-Andrés, U. Amaldi, R. Bonomi, A. Degiovanni, M. Garlasché, A. Garonna, C. Mellace, P. Pearce and R. Wegner, High-Gradient Test of a 3 GHz Single-Cell cavity. LINAC10.
  2. D. Alesini, R. Boni, G. Di Pirro, R. Di Pirro, R. Di Roddo, M. Ferrario, A. Gallo, V. Lollo, F. Marcellini, T. Higo, K. Kakihara, S. Matsumoto, G. Campogiani, A. Mostacci, L. Palumbo, S. Persichelli, V. Spizzo and S. Verdú-Andrés. Design, Fabrication and High Power RF Test of a C-band Accelerating Structure for Feasibility Study of the SPARC Photo-Injector Energy Upgrade. IPAC11.
  3. S. Verdú-Andrés, D. Alesini, R. Boni, G. Di Pirro, R. Di Raddo, M. Ferrario, A. Gallo, V. Lollo, F. Marcellini, L. Palumbo, B. Spataro, V. Spizzo, A. Enomoto, T. Higo, K. Kakihara, T. Kamitani, S. Matsumoto, T. Sugimura, K. Yokoyama, J. Kovermann and W. Wuensch, The Test of the C-band Prototype for SPARC, an Example of High Power RF Test of High-Gradient Performance Accelerating Structures. MULCOPIM11.
  4. M. Dehler, S. Verdú-Andrés, W. Wuensch, Á. Faus-Golfe, B. Gimeno-Martínez, J. Kovermann, V. Boria and D. Raboso, Comparative Study of Experimental Signals from Multipactor and Breakdown. MULCOPIM11.
  5. D. Alesini, R. Boni, G. Di Pirro, R. Di Raddo, M. Ferrario, A. Gallo, V. Lollo, F. Marcellini, L. Palumbo, V. Spizzo, A. Enomoto, T. Higo, K. Kakihara, T. Kamitani, S. Matsumoto, T. Sugimura, K. Yokoyama and S. Verdú-Andrés, High Gradient Test of a C-Band Accelerating Structure Prototype for Energy Upgrade of Frascati Photoinjector SPARC. SPARC-RF-11/05 Note and KEK 2011-6 Report.
  6. A. Degiovanni, U. Amaldi, R. Bonomi, M. Garlasché, A. Garonna, S. Verdú-Andrés and R. Wegner, TERA High Gradient Test Program of RF Cavities for Medical Linear Accelerators. NIM A 657 (2011) 55-58 (XBand 2010).
  7. U. Amaldi, A. Degiovanni and S. Verdú-Andrés, Expected Performances of High-Gradient Accelerating Structures. TERA Note, 2011.

Medical Physics

  1. J. M: Benlloch, J. Bernabeu, A. Faus-Golfe,  A. Ferrer, J. Fuster, C. Lacasta, A. Perez, M. Rafecas and F. Sanchez, Gran Instalación de Investigación en Física Médica. IFIC 04-61.
  2. J.A. Barcia, J.M: Benlooch, J. Bernabeu, A. Faus-Golfe, A. Ferrer, J. Fuster, C. Lacasta, A. Llombart, I. Pestchen, A. Perez, M. Rafecas, F. Sanchez y A. Sebastia. Large Scale Facility for Research in Medical Physics. IFIC 05-47.
  3. U. Amaldi, R. Bonomi, S. Braccini, M. Crescenti, A. Degiovanni, M. Garlasché, A. Garonna, G. Magrin, C. Mellace, P. Pearce, G. Pittà, P. Puggioni, E. Rosso, S. Verdú-Andrés, R. Wegner, M. Weiss and R. Zennaro, Accelerators for Hadrontherapy: From Lawrence Cyclotrons to Linacs. NIM A  620 (2010) 563-577.
  4. S. Verdú-Andrés, Ugo Amaldi and Á. Faus-Golfe, First Feasibility Study of a High-Frequency Linac for Carbon Ion Therapy. PARTNER Project Report WP25, 2010.
  5. A. Garonna, U. Amaldi, R. Bonomi, D. Campo, A. Degiovanni, M. Garlasché, I. Mondino, V. Rizzoglio and S. Verdú-Andrés, Cyclinac Medical Accelerators Using Pulsed C6+/H2+ Ions Sources. JINST  5 (2010) C09004 (EBIST2010).
  6. S. Verdú-Andrés, Ugo Amaldi and Á. Faus-Golfe, Software Optimization for Beam Transport and Acceleration in Cyclinacs. PARTNER Project Report WP25, 2011.
  7. U. Amaldi, A. Faus-Golfe, S. Verdú-Andrés, Literature Review on Linacs and FFAGS for Hadrontherapy. IJMP A  26 (2011) 1659-1689 (FFAGS 2009).
  8. S. Verdú-Andrés, U. Amaldi, A. Degiovanni, Á. Faus-Golfe and P. A. Posocco, Feasibility Study of a High-Gradient Linac for Hadrontherapy. IPAC11.
  9. S. Verdú-Andrés, Ugo Amaldi and Á. Faus-Golfe, Comparison between RF Linacs and FFAGs for Hadrontherapy. PARTNER Project Report WP25, 2011.
  10. S. Verdú-Andrés, Ugo Amaldi and Á. Faus-Golfe, Construction, Exploitation Costs and Status of the IFIMED Facility. PARTNER Project Report WP25, 2011.

Outreach

  1. Joan Bordàs, A. Faus-Golfe y Ramón Pascual, Acceleradors de particules: Els supermicroscopics, Metode, n.27 (2000) pag.30.
  2. Ugo Amaldi y Angeles Faus-Golfe, Acceleradors de particules: Aplicacions Mediques,    Metode, n.77 (2008) pag.55.
  3. Susana Cabrera Urbán Ángeles Faus-Golfe, José Salt Cairols  y Miguel Ángel Sanchis Lozano, El desafiament pel coneixement És l’LHC segur?, Metode, n.63 (2009) pag.55.
  4. J. Bernabeu, A. Faus-Golfe, A Fisica Medica: Imaxe e Aceleradores. Boletin das Ciencias,Temas de Fisica nº 70 (2010).
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