Month: Marzec 2025

SEMINARIUM FIZYKI WIELKICH ENERGII

Dnia 4 kwietnia (piątek) o godzinie 11:30, w sali B2.38 odbędzie się seminarium, na którym zostanie wygłoszony referat pt.:

„Developments towards light Dark Matter Detection and Medical Applications”

Referuje: Prof. Masayuki Wada (Astrocent/CAMK PAN)

Dark matter candidates with masses below 10 GeV/c² hold promise, and a new detector, DarkSide-LowMass, is proposed based on the DarkSide-50 detector and progress towards the DarkSide-20k. DarkSide-LowMass is optimized for low-threshold electron-counting measurements, and sensitivity to light dark matter is explored for various potential energy thresholds and background rates. I will present the developments towards low mass dark matter searches with a new detector as well as sensitivity with DarkSide-20k, which is under construction.

I also discuss the activity for the medical application, Positron Emission Tomography (PET) scanner, using the same technologies as dark matter searches.

Serdecznie zapraszamy

dr hab. Katarzyna Grzelak

prof. dr hab. Aleksander Filip Żarnecki

SEMINARIUM FIZYKI WIELKICH ENERGII

Dnia 28 marca (piątek) o godzinie 11:30, w sali B2.38 odbędzie się seminarium, na którym zostanie wygłoszony referat pt.:

„Enhanced optical amplification structures for Dark Matter searches”

Referuje: André Filipe Cortez (AstroCeNT)

The development of radiation detectors has seen significant advancements over the past decades, particularly in those relying on electroluminescence. Optical time projection chambers (OTPCs) have become the preferred choice in the field of direct dark matter searches (more specifically in WIMP searches), having also been considered for neutrino experiments. Dark matter experiments examples include XENON, LZ, DarkSide, and CYGNO where directional information is expected to be explored. Moreover, these detectors have found applications in nuclear physics, such as in the study of ββ0ν decay (NEXT) and 2p-decay and related processes (Warsaw-TPC).

Even though significant progress has been observed in the development of these detectors since the first works in the 1960s, the optimization of the light collection efficiency remains an important concern. Historically, these structures were mostly made up of meshes or conventional micro-pattern gas detectors (MPGDs) designed for avalanche mode and working mainly in quenched gases.

Given the expected scalability of most of the aforementioned detectors, light production and collection pose unique challenges. Dealing with alignment, and the use of meshes or wires spanning large areas presents practical limitations.

In most cases, relying on scintillation originated in charge avalanches will affect not only the energy resolution but also impact the attainable spatial resolution. In addition, the use of lenses, while enabling the reduction of the number of optical sensors required to read large areas and improvement of the optical gain, may limit the spatial resolution attainable, introducing undesirable optical effects (e.g. aberrations). Nevertheless, it is important to consider techniques that can mitigate potential adverse effects associated with the current amplification structures and readout.

In this talk, the challenges for improving the light collection as well as the minimization of the background in dual-phase TPCs resulting from spurious emission will be discussed. We will start with a brief overview of the evolution of electroluminescence studies, along with strategies to address some of the main challenges faced in the development of such detectors for Dark matter searches. Alternative structures, GEM-based, capable of providing higher optical gains without relying on avalanche multiplication, thus enhancing energy resolution and detector stability (while eliminating ion back-flow), will be presented.

Serdecznie zapraszamy

dr hab. Katarzyna Grzelak

prof. dr hab. Aleksander Filip Żarnecki

SEMINARIUM FIZYKI WIELKICH ENERGII

Dnia 21 marca (piątek) o godzinie 11:30, w sali B2.38 odbędzie się seminarium, na którym zostanie wygłoszony referat pt.:

„Spin Structure of the Nucleon: From CERN SPS to EIC”

(powtórka konwersatorium z NCBJ)

Referuje: dr hab. Marcin Stolarski (NCBJ)

I will present over 40 years of involvement by Warsaw groups in studying the (spin) structure of the nucleon through CERN SPS muon experiments—including EMC, NMC, SMC, and COMPASS. While these experiments have led to many intriguing physics insights, precise answers to key questions remain elusive due to the kinematic limitations of fixed-target setups. This is set to change with the upcoming Electron-Ion Collider (EIC), the world’s first polarized electron-proton collider, which promises unprecedented access to the nucleon’s spin structure.

Serdecznie zapraszamy

dr hab. Katarzyna Grzelak

prof. dr hab. Aleksander Filip Żarnecki

SEMINARIUM FIZYKI WIELKICH ENERGII

Dnia 14 marca (piątek) o godzinie 11:30, w sali B2.38 odbędzie się seminarium, na którym zostanie wygłoszony referat pt.:

„Silicon Photomultipliers in Gamma and Neutron Radiation Detection – Principles and Applications”

Referuje: dr hab. inż. Martyna Grodzicka-Kobyłka (NCBJ)

Gamma-ray spectrometry using scintillation detectors is one of the most important measurement techniques employed in various fields of nuclear physics and related research. This method finds applications in fundamental nuclear physics studies, environmental monitoring, nuclear medicine, and modern border security systems.

Scintillation detectors consist of a scintillating material, which absorbs gamma quanta and subsequently emits light, and a photodetector responsible for registering this signal. The most commonly used photodetectors include PIN diodes, avalanche photodiodes (APDs), vacuum photomultiplier tubes (PMTs), and modern silicon photomultipliers (SiPMs).

This presentation will cover the operating principles of silicon photomultipliers, their advantages and limitations, as well as their potential applications in detecting light emitted by scintillators in gamma-ray spectrometry and neutron detection. Special emphasis will be placed on their use in physics, medicine, and security systems.

Serdecznie zapraszamy

dr hab. Katarzyna Grzelak

prof. dr hab. Aleksander Filip Żarnecki

SEMINARIUM FIZYKI WIELKICH ENERGII

Dnia 7 marca (piątek) o godzinie 11:30, w sali B2.38 odbędzie się seminarium, na którym zostanie wygłoszony referat pt.:

„The scalar sector – story so far – from the ATLAS perspective”

Referuje: dr hab. Paweł Bruckman de Renstrom (IFJ PAN)

The long-awaited discovery of the Higgs boson has fundamentally changed the paradigm of experimental particle physics. The BEH mechanism turned from an attractive hypothesis into a physical reality. The detailed study of the properties of the only known fundamental scalar, as well as the direct search for an extended scalar sector, became the main focus of the LHC physics program. Based on ATLAS results, the talk will briefly review the current experimental status of the 125 GeV Higgs boson and focus on the searches for BSM phenomena in the scalar sector.

Serdecznie zapraszamy

dr hab. Katarzyna Grzelak

prof. dr hab. Aleksander Filip Żarnecki