Paolo Crivelli: Catalogue data in Autumn Semester 2023

Name Prof. Dr. Paolo Crivelli
Address
Inst. f. Teilchen- und Astrophysik
ETH Zürich, HPT E 7.2
Auguste-Piccard-Hof 1
8093 Zürich
SWITZERLAND
Telephone+41 44 633 35 11
Fax+41 44 633 11 04
E-mailpaolo.crivelli@phys.ethz.ch
URLhttp://www.ppp.phys.ethz.ch
DepartmentPhysics
RelationshipAdjunct Professor

NumberTitleECTSHoursLecturers
402-0457-00LQuantum Technologies for Searches of New Physics
Does not take place this semester.
6 credits2V + 1UP. Crivelli
AbstractRecent years have witnessed incredible progress in the development of new quantum technologies driven by their application in quantum information, metrology, high precision spectroscopy and quantum sensing. This course will present how these emerging technologies are powerful tools to address open questions of the Standard Model in a complementary way to what is done at the high energy frontier.
Learning objectiveThe aim of this course is to equip students of different backgrounds with a solid base to follow this rapidly developing and exciting multi-disciplinary field.
ContentThe first lectures will be dedicated to review the open questions of the Standard Model and the different Beyond Standard Model extensions which can be probed with quantum technologies. This will include searches for dark sector, dark matter, axion and axion-like particles, new gauge bosons (e.g Dark photons) and extra short-range forces.

The main part of the course will introduce the following (quantum) technologies and systems, and how they can be used for probing New Physics.
- Cold atoms
- Trapped ions
- Atoms interferometry
- Atomic clocks
- Cold molecules and molecular clocks
- Exotic Atoms
- Anti-matter
- Quantum Sensors
Prerequisites / NoticeThe preceding attendance of introductory particle physics, quantum mechanics and quantum electronics courses at the bachelor level is recommended.
402-0891-00LPhenomenology of Particle Physics I10 credits3V + 2UP. Crivelli, A. de Cosa
AbstractTopics to be covered in Phenomenology of Particle Physics I:
Relativistic kinematics
Decay rates and cross sections
The Dirac equation
From the S-matrix to the Feynman rules of QED
Scattering processes in QED
Experimental tests of QED
Hadron spectroscopy
Unitary symmetries and QCD
QCD and alpha_s running
QCD in e^+e^- annihilation
Experimental tests of QCD in e^+e^- annihilation
Learning objectiveIntroduction to modern particle physics
ContentTopics to be covered in Phenomenology of Particle Physics I:
Relativistic kinematics
Decay rates and cross sections
The Dirac equation
From the S-matrix to the Feynman rules of QED
Scattering processes in QED
Experimental tests of QED
Hadron spectroscopy
Unitary symmetries and QCD
QCD and alpha_s running
QCD in e^+e^- annihilation
Experimental tests of QCD in e^+e^- annihilation
LiteratureAs described in the entity: Lernmaterialien