LTP(izza)hD 04/2024

Europe/Zurich
WBGB/021 (TimeOut)

WBGB/021 (TimeOut)

Sophie Kollatzsch (PSI - Paul Scherrer Institut), Timothy David Hume (PSI - Paul Scherrer Institut)
Description

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All LTP students and postdocs of PSI and associated groups/universities are invited to join this event in the LTPhD seminar series. There will be plenty of time for discussions and to enjoy the pizza together.

Registration
Participants
Participants
  • Aziza Zendour
  • Chavdar Dutsov
  • David Radic
  • Diego Alejandro Sanz Becerra
  • Fabian Lange
  • Giovanni Dal Maso
  • Giuseppe Lospalluto
  • Irina Rusetski
  • Jamie Chang
  • Joanna Peszka
  • Katharina von Schoeler
  • Katia Michielsen
  • Kensuke Yamamoto
  • Lea Segner
  • Lorenzo Ferrari Barusso
  • Lukas Affolter
  • Marco Rocco
  • Miguel Ferro
  • Patrick Mullan
  • Ryusei Umakoshi
  • Sara Gündogdu
  • Siddharth Rajamohanan
  • Sophie Kollatzsch
  • Sumit Banik
  • Taku Yonemoto
  • Tim Hume
  • Victoria Kletzl
  • Wei-Ling Chen
  • Wenting Chen
  • Òscar Lara Crosas
    • 17:30 17:50
      Frequency combs for precision metrology 20m

      Over the last century, our efforts to understand the spectrum of simple atomic systems such as hydrogen have led to the development of quantum mechanics, quantum-electrodynamics, and to the precise determination of fundamental constants. Constant improvements in both experimental techniques and theoretical models have pushed the precision of measurements and calculations to an astonishing level. The development of the frequency comb laser in 2000 has been instrumental for precision spectroscopy, as it solved a long-standing issue of measuring optical frequencies in terms of the Cs primary standard. Instead of using such a laser as an “optical ruler”, one can also use its pulsed output for direct frequency comb spectroscopy.
      I will talk about the working principle of these frequency comb lasers, and how we plan on using them to perform the first measurement of the 1S-2S transition in He+, which was the subject of my PhD research.

      Speaker: Elmer Gründeman (ETH Zürich)
    • 18:00 18:30
      Pizza 30m
    • 18:30 18:50
      Geometrical Approaches to Evaluate Feynman Integrals 20m

      Experimental measurements of physical observables in high-energy particle colliders, such as the LHC, rely on precise theoretical predictions to validate theoretical models and detect signals of new physics. These predictions, within the perturbative framework of quantum field theory, require the computation of complicated integrals, commonly known as Feynman integrals.
      In this talk, I will briefly discuss two new approaches that use school-level geometry for the analytic evaluation of scalar Feynman diagrams.

      Speaker: Sumit Banik (Indian Institute of Science)