TY - JOUR
T1 - Summary of strong-field QED Workshop
AU - Altarelli, M
AU - Assmann, R
AU - Burkart, F
AU - Heinemann, B
AU - Heinzl, T
AU - Koffas, T
AU - Maier, AR
AU - Reis, D
AU - Ringwald, A
AU - Wing, M
PY - 2019/4/30
Y1 - 2019/4/30
N2 - A workshop, "Probing strong-field QED in electron--photon interactions", was
held in DESY, Hamburg in August 2018, gathering together experts from around
the world in this area of physics as well as the accelerator, laser and
detector technology that underpins any planned experiment. The aim of the
workshop was to bring together experts and those interested in measuring QED in
the presence of strong fields at and above the Schwinger critical field. The
pioneering experiment, E144 at SLAC, measured multi-photon absorption in
Compton scattering and $e^+e^-$ pair production in electron--photon
interactions but never reached the Schwinger critical field value. With the
advances in laser technology, in particular, new experiments are being
considered which should be able to measure non-perturbative QED and its
transition from the perturbative regime. This workshop reviewed the physics
case and current theoretical predictions for QED and even effects beyond the
Standard Model in the interaction of a high-intensity electron bunch with the
strong field of the photons from a high-intensity laser bunch. The world's
various electron beam facilities were reviewed, along with the challenges of
producing and delivering laser beams to the interaction region. Possible
facilities and sites that could host such experiments were presented, with a
view to experimentally realising the Schwinger critical field in the lab during
the 2020s.
AB - A workshop, "Probing strong-field QED in electron--photon interactions", was
held in DESY, Hamburg in August 2018, gathering together experts from around
the world in this area of physics as well as the accelerator, laser and
detector technology that underpins any planned experiment. The aim of the
workshop was to bring together experts and those interested in measuring QED in
the presence of strong fields at and above the Schwinger critical field. The
pioneering experiment, E144 at SLAC, measured multi-photon absorption in
Compton scattering and $e^+e^-$ pair production in electron--photon
interactions but never reached the Schwinger critical field value. With the
advances in laser technology, in particular, new experiments are being
considered which should be able to measure non-perturbative QED and its
transition from the perturbative regime. This workshop reviewed the physics
case and current theoretical predictions for QED and even effects beyond the
Standard Model in the interaction of a high-intensity electron bunch with the
strong field of the photons from a high-intensity laser bunch. The world's
various electron beam facilities were reviewed, along with the challenges of
producing and delivering laser beams to the interaction region. Possible
facilities and sites that could host such experiments were presented, with a
view to experimentally realising the Schwinger critical field in the lab during
the 2020s.
KW - hep-ex
KW - hep-ph
KW - physics.plasm-ph
UR - https://pearl.plymouth.ac.uk/context/secam-research/article/2286/viewcontent/1905.00059v1.pdf
M3 - Article
VL - 0
JO - Default journal
JF - Default journal
IS - 0
ER -