Name: NNV najaarsvergadering
Start: 2022-11-04T10:00:00+01:00
End: 2022-11-04T20:00:00+01:00
Location: Lunteren

NNV najaarsvergadering

Friday, 4 November 2022 - 10:00

Monday, 31 October 2022 ¶
Tuesday, 1 November 2022 ¶
Wednesday, 2 November 2022 ¶
Thursday, 3 November 2022 ¶
Friday, 4 November 2022 ¶

10:00 Welcome and coffee
Welcome and coffee
10:00 - 10:30
Room: de Werelt
10:30 The LHCb upgrade and its physics prospects for LHC Run 3 - Antonio Pellegrino
The LHCb upgrade and its physics prospects for LHC Run 3
- Antonio Pellegrino
10:30 - 11:05
Room: de Werelt
11:15 An Effective (Field Theory) Pathway to the New Standard Model - Juan Rojo
An Effective (Field Theory) Pathway to the New Standard Model
- Juan Rojo
11:15 - 11:55
Room: de Werelt The ultimate goal of particle physics is uncovering a fundamental theory which allows the coherent interpretation of phenomena taking place at all energy and distance scales. The Effective Field Theory framework is particularly powerful in this respect, in that it makes possible a model-independent, theoretically consistent interpretation of particle physics data measured by a range of different experiments. In talk I present recent progress in global analyses of LHC data in terms of the Standard Model Effective Field Theory, in particular focusing on the combination of Higgs, electroweak, and top quark production measurements. I will also discuss how to construct optimally-sensitive observables for EFT fits with machine learning and the interplay between EFT effects and proton structure when interpreting high-pT LHC measurements.
12:00 Ia
Ia
12:00 - 12:40
Room: de Werelt
Contributions

12:00 Detection and characterization of strongly-lensed gravitational waves - Justin Janquart

12:20 Measurement of electroweak Z(νν)γjj production and limits on anomalous quartic gauge couplings in ATLAS - Diana Pyatiizbyantseva
Ib
Ib
12:00 - 12:40
Room: de Werelt
Contributions

12:00 Fingerprinting CP-violating New Physics with Rare B Meson Decays - Anders Rehult

12:20 Status of frequency dependent squeezing for Advanced Virgo Plus - Yuefan Guo
Ic
Ic
12:00 - 12:40
Room: de Werelt
Contributions

12:00 Combined SMEFT interpretation of Higgs and electroweak measurements - Andrea Visibile

12:20 Demonstrators of the ATLAS HGTD - Marion Missio
12:40 Lunch
Lunch
12:40 - 14:00
Room: de Werelt
14:00 IIa
IIa
14:00 - 15:00
Room: de Werelt
Contributions

14:00 Tidal response from scattering and the role of analytic continuation - Gastón Creci (Utrecht University)

14:20 Time is of the essence: Depleted Monolithic Silicon Sensors - Uwe Kraemer (DR&D)

14:40 New test of Lepton Flavour Universality with rare $Λ_{b}^{0} \to Λ ℓ^{+} ℓ^{-}$ decays at LHCb - Jan de Boer
IIb
IIb
14:00 - 15:00
Room: de Werelt
Contributions

14:00 How well can we constrain modified gravitational wave propagation with strong lensing? - Harsh Narola (Utrecht University)

14:20 Ion optical simulation for the NEXT solenoid separator - Arif Soylu (VSI/RUG)

14:40 Searching for ultra-high energy neutrinos at the Pierre Auger Observatory - Mohit Saharan
IIc
IIc
14:00 - 15:00
Room: de Werelt
Contributions

14:00 Measuring the atmospheric tau-neutrino appearance with KM3NeT - Bouke Jisse Jung

14:20 New collider searches for dark photon - Anh Vu Phan (Radboud University)

14:40 Theoretical study of properties of radioactive molecules - Aleksandra Kiuberis (Van Swinderen Institute for Particle Physics and Gravity, Faculty of Science and Engineering, University of Groningen)
15:00 Tea/coffee break
Tea/coffee break
15:00 - 15:30
Room: de Werelt
15:30 IIIa
IIIa
15:30 - 16:10
Room: de Werelt
Contributions

15:30 A deep learning pipeline for core-collapse supernova searches - Melissa Lopez

15:50 VULCAN: Studying the fluorescence response of PTFE to incident VUV light in cryogenic conditions - Emily Brookes
IIIb
IIIb
15:30 - 16:10
Room: de Werelt
Contributions

15:30 Latest results of KamLAND-Zen: the most stringent limit on the half-life of neutrinoless double beta decay. - Kelly Weerman

15:50 Correlations between strange hadrons in ALICE - Rik Spijkers
IIIc
IIIc
15:30 - 16:10
Room: de Werelt
Contributions

15:30 Bs --> K form factors and their impact on CKM elements - Carolina Bolognani (Maastricht University)

15:50 Generating template banks for gravitational waves searches in exotic binary black hole regions - Stefano Schmidt
16:15 New Perspectives onto the Universe in the Multi-messenger astro era - Samaya Nissanke (University of Amsterdam)
New Perspectives onto the Universe in the Multi-messenger astro era
- Samaya Nissanke (University of Amsterdam)
16:15 - 16:55
Room: de Werelt Since the revolutionary discovery of gravitational wave (GW) emission from a binary black hole merger in 2015, the remarkable GW detectors LIGO, Virgo and KAGRA have detected ninety compact object mergers. These events are transforming modern astronomy. In particular, the first binary neutron star merger, dubbed GW170817, was observed in both gravitational and electromagnetic radiation, thus opening up a new era in multimessenger astrophysics. The multi-messenger characterisation of such an event has enabled major advances into diverse fields of modern physics from gravity, high-energy and extragalactic astrophysics, nuclear physics, to cosmology. In this talk, I will discuss my work in strong-field gravity astrophysics and how combining observations, theory and experiment have been key in making progress in this field. I will present the challenges and the opportunities that have emerged in multi-messenger astrophysics, and what the future holds in this new era.
17:00 Reception and dinner
Reception and dinner
17:00 - 19:00
Room: de Werelt
19:00 Quantum Computation and Natural Language Processing - Henk Stoof (Utrecht University)
Quantum Computation and Natural Language Processing
- Henk Stoof (Utrecht University)
19:00 - 19:40
Room: de Werelt Quantum computers hold great future promise for performing more energy efficient and especially faster calculations for various complex problems by making use of algorithms with quantum speed-up. The most famous of these is the so-called Grover search algorithm. One, maybe less known, research area where quantum computers may possible become of great importance is Artificial Intelligence (AI) and in particular Natural Language Processing (NLP). In this talk we will try to explain why this is the case and will also present some first proof-of-principle calculations on the superconducting quantum computer publicly available through the IBM Quantum Experience, with the ultimate aim of applying Grover's algorithm to the NLP task of question answering. We also explicitly show the limitations of the present-day noisy quantum computers due to decoherence processes.