Informações sobre o curso
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Nível intermediário

Basic physics at undergraduate level

Aprox. 20 horas para completar

Sugerido: 4 weeks of study with 5-8 hours/week...

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O que você vai aprender

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    You will learn the basic technology of particle accelerators.

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    You will understand the basic principles for how particles are accelerated, and how they can be guided.

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    You will learn about different ways to monitor the beam.

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    You will learn about vacuum: Why we need vacuum in accelerators; Where particles that give rise to pressure comes from; How one create vacuum

100% on-line

Comece imediatamente e aprenda em seu próprio cronograma.

Prazos flexíveis

Redefinir os prazos de acordo com sua programação.

Nível intermediário

Basic physics at undergraduate level

Aprox. 20 horas para completar

Sugerido: 4 weeks of study with 5-8 hours/week...

Inglês

Legendas: Inglês

Programa - O que você aprenderá com este curso

Semana
1
4 horas para concluir

RF-systems

14 vídeos (Total 36 mín.), 10 leituras, 15 testes
14 videos
Outline of the RF-system1min
Pill-box cavities5min
Energy3min
Coaxial waveguides2min
Rectangular waveguides2min
Computer simulations2min
The circulator1min
Introduction to RF-amplifiers2min
The klystron4min
General properties2min
Drift tube linac (DTL)1min
Elliptical cavity1min
Traveling wave cavity2min
10 leituras
Introduction10min
Basic concepts 110min
A mathematical description of the pillbox cavity10min
A mathematical description of energy in cavities10min
A mathematical description of the coaxial waveguide10min
A mathematical description of rectangular waveguides10min
More on the circulator10min
Gain of amplifiers10min
Drift tube Linac: example10min
Elliptical cavity: example10min
15 exercícios práticos
Quiz Introduction6min
Outline of RF-system5min
Pill-box cavities10min
Energy5min
Coaxial waveguides6min
Rectangular waveguides2min
Computer simulations4min
Circulator4min
Introduction to amplifiers6min
The klystron8min
General properties6min
Drift tube linac4min
Elliptical cavities6min
Traveling wave cavity4min
RF-systems: Graded test40min
Semana
2
2 horas para concluir

Magnet technology for accelerators

4 vídeos (Total 27 mín.), 1 leitura, 5 testes
4 videos
Fast ramp magnets4min
Superconducting magnets6min
Permanent accelerator magnets and insertion devices6min
1 leituras
Magnetic circuits10min
5 exercícios práticos
Basic concepts18min
Fast ramped magnets10min
Superconducting magnets6min
Permanent magnets and insertion devices6min
Magnet technology: Graded test30min
Semana
3
4 horas para concluir

Beam Diagnostics

19 vídeos (Total 45 mín.), 3 leituras, 20 testes
19 videos
Important concepts in beam diagnostics3min
Describing the beam2min
Faraday cup2min
Wall current monitor2min
Beam Current Transformer1min
Button pick-up1min
Cavity BPM1min
OTR and Scintillating screens5min
Wire scanner and SEM grid3min
Synchrotron radiation monitor1min
An introduction to longitudinal profile50s
Transversely deflecting cavity2min
Streak camera2min
Energy (profile) monitoring: Spectrometer and ToF2min
Energy along a single bunch1min
Introduction to beam loss and machine protection.3min
Ionization chamber2min
Scintillation counter1min
3 leituras
Introduction to lecture on current and position measurements10min
Introduction to lecture on transverse beam profile measurements10min
To measure the beam emittance and the Twiss parameters:30min
20 exercícios práticos
Motivation to beam diagnostics2min
Important concepts in beam diagnostics12min
Describing the beam6min
Faraday cup6min
Wall current monitor4min
Beam current transformer4min
Button pick up6min
Cavity BPM4min
OTR and scintillation screens4min
Wire scanner and SEM grid6min
Synchrotron radiation measurement4min
Emittance measurements5min
Transversely deflecting cavity2min
Streak camera2min
Energy monitoring: Spectrometer and ToF4min
Energy along a single bunch2min
Introduction to beam loss and machine protection2min
Ionization chamber2min
Scintillation counter2min
Beam diagnostics: Graded test50min
Semana
4
2 horas para concluir

Basics of Vacuum techniques

11 vídeos (Total 26 mín.), 1 leitura, 11 testes
11 videos
Introduction to pressure/vacuum2min
Three states of residual gas58s
Definition of vacuum regions1min
Composition of residual gas1min
Introduction to pumps59s
Gas-Displacement Pumps2min
Kinetic Vacuum Pumps2min
Gas-Binding Pumps4min
Vacuum Gauges3min
Vacuum components3min
1 leituras
Brief introduction to Maxwell-Boltzmann theory for ideal gas10min
11 exercícios práticos
Motivation4min
Introduction to pressure/vacuum2min
Three states of residual gases8min
Definition of vacuum regions2min
Composition of residual gases5min
Gas displacement pumps5min
Kinetic vacuum pumps2min
Gas binding pump2min
Vacuum Gauges6min
Vacuum components2min
Vacuum technology: Graded test30min
4.8
3 avaliaçõesChevron Right

Principais avaliações do Fundamentals of particle accelerator technology (NPAP MOOC)

por RMOct 29th 2019

Description of complex devices in particle accelerator field are explained in very lucid way.

Instrutores

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Anders Karlsson

Professor Electromagnetic Theory
Department of Electrical and Information Technology
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Pauli Heikkinen

PhD, Chief engineer for the Accelerator Laboratory at the University of Jyväskylää in Finland
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Franz Bødker

R&D Engineer, Ph.D.
Technical University of Denmark
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Maja Olvegård

Post Doc in Beam Diagnostics
Department of Physics and Astronomy, FREIA, Uppsala University

Sobre Universidade de Lund

Lund University was founded in 1666 and has for a number of years been ranked among the world’s top 100 universities. The University has 47 700 students and 7 500 staff based in Lund, Sweden. Lund University unites tradition with a modern, dynamic, and highly international profile. With eight different faculties and numerous research centres and specialized institutes, Lund is the strongest research university in Sweden and one of Scandinavia's largest institutions for education and research. The university annually attracts a large number of international students and offers a wide range of courses and programmes taught in English. In addition, International Institute for Industrial Environmental Economics (IIIEE) is part of the university and works to advance strategies for sustainable solutions through cutting edge interdisciplinary research, high-quality innovative education, and effective communication and strong partnerships. ...

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