Acerca de este Curso

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Nivel intermedio

Very basic physics courses.

Aprox. 12 horas para completar
Inglés (English)

Qué aprenderás

  • You will learn how electrons can create light

  • You will learn the basic principles of synchrotron light sources and MAX-IV

  • You will learn how protons can be accelerated in a linear accelerator and how they can produce neutrons by spallation at the ESS

  • You will learn what particle colliders are and what they can be used for

Certificado para compartir
Obtén un certificado al finalizar
100 % en línea
Comienza de inmediato y aprende a tu propio ritmo.
Fechas límite flexibles
Restablece las fechas límite en función de tus horarios.
Nivel intermedio

Very basic physics courses.

Aprox. 12 horas para completar
Inglés (English)

ofrecido por

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Universidad de Lund

Programa - Qué aprenderás en este curso

Semana
1

Semana 1

2 horas para completar

Accelerators for Synchrotron Light

2 horas para completar
5 videos (Total 18 minutos), 5 lecturas, 4 cuestionarios
5 videos
Which type of light do we need?2m
Introduction to synchrotron accelerators2m
How does an accelerator for synchrotron radiation work?6m
The evolution of accelerators for synchrotron light2m
5 lecturas
Start and welcome!3m
Try an experiment - light10m
Try another experiment - detector10m
Try thinking with your hand - motion in a magnet10m
How magnets affect particles2m
4 ejercicios de práctica
Light and light sources20m
Accelerators to make light20m
The development of accelerators for synchrotron light20m
Accelerators for synchrotron light: Graded test30m
Semana
2

Semana 2

2 horas para completar

Photon light sources and MAX IV

2 horas para completar
7 videos (Total 17 minutos), 3 lecturas, 5 cuestionarios
7 videos
Discovery of synchrotron radiation1m
General characteristics of synchrotron radiation3m
Bending magnets radiation1m
Wigglers and undulators3m
Free Electron Lasers2m
Configurations. SASE and seeding2m
3 lecturas
Welcome to the second module3m
Useful links about FELs10m
Links to further reading10m
5 ejercicios de práctica
Photon Light Sources20m
Critical wavelength20m
Bending magnets, wigglers and undulators20m
Free Electron lasers15m
Photon light sources:Graded test30m
Semana
3

Semana 3

3 horas para completar

Spallation sources and ESS

3 horas para completar
7 videos (Total 15 minutos), 7 lecturas, 3 cuestionarios
7 videos
Neutron spallation sources2m
The basics of ESS56s
Challenges for the ESS accelerator1m
The ESS Accelerator4m
How to observe the ESS beam1m
To avoid melting the target37s
7 lecturas
The discovery of the neutron5m
Neutron sources - Extra reading10m
Neutron E-Learning platforms10m
Introductory reading4m
ESS - Complementary information30m
The ESS accelerator - extra reading15m
More about ESS Beam Diagnostics30m
3 ejercicios de práctica
Introduction and Neutron science10m
ESS20m
Neutron science and ESS: Graded test30m
Semana
4

Semana 4

3 horas para completar

Particle Colliders

3 horas para completar
9 videos (Total 25 minutos), 6 lecturas, 5 cuestionarios
9 videos
Going into matter, the standard model2m
Particle collider characteristics4m
Introduction to CERN56s
LHC main parameters and technological choices2m
Linear Colliders3m
ILC and CLIC5m
Future Circular Colliders2m
Conclusions1m
6 lecturas
Introduction to Particle Colliders10m
The Standard Model - further reading10m
Links particles and particle accelerators10m
More links10m
Existing CERN movies30m
Learning outcomes10m
5 ejercicios de práctica
Introduction to Particle Colliders30m
The LHC and its experiments20m
Linear Colliders20m
Future Circular Colliders5m
Particle colliders: Graded test30m

Reseñas

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