Jornadas RF-Track: Accelerator and Beam Physics Computing

6 jun. 2024 9:00 → 7 jun. 2024 13:00 Europe/Madrid

1001-Primera-135 - Nave Exp. Sala de Audiovisuales (Universe)

1001-Primera-135 - Nave Exp. Sala de Audiovisuales

Universe

Descripción

RF-Track is a novel tracking code developed for the optimization of low-energy linacs in presence of space-charge effects. RF-Track can transport beams of particles with arbitrary mass and charge even mixed together, solving fully relativistic equations of motion. It implements direct space-charge effects in a physically consistent manner, using parallel algorithms. It can simulate bunched beams as well as continuous beams, and transport through conventional elements as well as through field maps of oscillating electromagnetic fields. RF-Track is written in optimized and parallel C++, and it uses the scripting languages Octave and Python as user interfaces. RF-Track has been tested successfully in several cases: TULIP, a backward-traveling-wave linac for medical applications; 750 MHz CERN's radio-frequency quadrupole; the transfer line for low energy anti-protons of the ELENA ring; the CLIC positron injector, and the AWAKE injector linac.

In these sessions, an introduction to the RF-Track simulation code will be presented along with practical sessions. Additionally, discussions will be held on potential applications.

Participantes

Benito Gimeno Martínez
Concepción Oliver Amorós
Daniel González Iglesias
David Pascual Alvarez
Demetrio Hermenegildo Saucedo Cuberes
Eduardo Martinez
Fazel Taft
Gabriela Moreno
Javier Resta López
Jone Etxebarria Erdoiza
Jorge Giner Navarro
José Reina Valero
Laura Pedraza Motavita
Marçà Boronat Arevalo
Nuria Fuster Martínez
Pablo Martinez Reviriego
Pablo Martín Luna
Pedro Calvo
Yanis FONTENLA

jueves, 6 junio
- jue., 6 jun.
- vie., 7 jun.
- 9:00 → 9:30
  
  Coffee 30m
- 9:30 → 11:30
  
  Introduction to RF-Track 2h
  
  Dr. Andrea Latina, main responsible of the tracking code RF-Track will give an overview of the code capabilities and applications. RF-Track is a CERN-developed particle tracking code that can simulate the generation, acceleration, and tracking of beams of any species through an entire accelerator, both in realistic field maps and conventional elements. In this presentation, examples of applications to real machines will also be presented.
  
  Ponentes: Dr. Andrea Latina (CERN), Javier Olivares (CERN)
  
  Dipole_Fieldmap.dat.gz Example10.ipynb Example11.ipynb Example12.ipynb Example13.ipynb Example1.ipynb Example2.ipynb Example3.ipynb Example4.ipynb Example5.ipynb Example6.ipynb Example7.ipynb Example8.ipynb Example9.ipynb GUN_ideal_SF_100.txt profile_califes_bon_B1_285_B3_338.txt pyExample10.ipynb pyExample11.ipynb pyExample12.ipynb pyExample1.ipynb pyExample2.ipynb pyExample3.ipynb pyExample4.ipynb pyExample5.ipynb pyExample6.ipynb pyExample7.ipynb pyExample8.ipynb pyExample9.ipynb RF_Track_slides.pdf scripts.py scripts.zip TWS_Sband.dat TWS_Xband.dat
- 11:30 → 12:00
  
  Break 30m
- 12:00 → 13:00
  
  Tutorial 1: Beam creation and beamline setup 1h
  
  Ponente: Javier Olivares (CERN)
- 13:00 → 14:30
  
  Lunch 1h 30m
- 14:30 → 15:30
  
  Tutorial 1: Beam creation and beamline setup 1h
  
  Ponente: Javier Olivares (CERN)
- 15:30 → 17:30
  
  Tutorial 2: Time tracking and beamline setup 2h
  
  Ponente: Dr. Andrea Latina (CERN)
viernes, 7 junio
- jue., 6 jun.
- vie., 7 jun.
- 9:00 → 9:30
  
  Coffee 30m
- 9:30 → 11:30
  
  Tutorial 3: Imperfections and collective effects 2h
  
  Ponentes: Dr. Andrea Latina (CERN), Javier Olivares (CERN)
- 11:30 → 12:00
  
  Break 30m
- 12:00 → 13:00
  
  Time for questions 1h

Jornadas RF-Track: Accelerator and Beam Physics Computing

1001-Primera-135 - Nave Exp. Sala de Audiovisuales

Universe

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