El CRAI romandrà tancat del 24 de desembre de 2025 al 6 de gener de 2026. La validació de documents es reprendrà a partir del 7 de gener de 2026.
El CRAI permanecerá cerrado del 24 de diciembre de 2025 al 6 de enero de 2026. La validación de documentos se reanudará a partir del 7 de enero de 2026.
From 2025-12-24 to 2026-01-06, the CRAI remain closed and the documents will be validated from 2026-01-07.
 
Miniatura

Fitxers

ROCHLITZER PUIG DERIK.pdf (56.46 MB)

Tipus de document

Treball de fi de màster

Data de publicació

2025-07

Llicència de publicació

cc-by-nc-nd (c) Rochlitzer, 2025
Si us plau utilitzeu sempre aquest identificador per citar o enllaçar aquest document: https://hdl.handle.net/2445/222571

Atomic Properties & Red Laser System for a Sr-Based Rydberg Quantum Simulator

Títol de la revista

Autors

Director/Tutor

ISSN de la revista

Títol del volum

Recurs relacionat

Resum

Quantum simulation seeks to study physical models that are beyond the reach of classical computation. Within this scope, ICFO’s Ultracold Quantum Gases group is developing a strontium Rydberg atom array platform to simulate high-dimensional lattice gauge theories with plaquette interactions, many-body couplings yet to be experimentally realised. This experiment requires a detailed theoretical understanding and a technically involved setup. This master’s thesis contributes to both fronts. On the theoretical side, we studied strontium’s clock state and its magnetic-field-induced excitation, characterised the properties and interactions of Rydberg states, and analysed a scheme for selective Rydberg excitation based on light shifts. Our results show that the clock transition can be broadened to the 0.1 mHz range to enable excitation, that Rydberg states with n ≈ 60 offer favourable interaction landscapes and coupling strengths, and that selective excitation should be feasible by scaling the intensity of optical tweezers. Experimentally, we implemented the core of the 689 nm laser system, including a slave diode for power amplification and an optical cavity for monitoring. We also verified the finesse of an ultrastable cavity for future frequency stabilisation and successfully tested the Pound-Drever-Hall locking technique on the monitoring cavity. Overall, these developments mark significant progress towards completing the experimental platform and provide a theoretical basis for future design choices. The future steps will focus on assembling the remaining experimental systems and testing our theoretical predictions.

Descripció

Màster Oficial de Ciència i Tecnologia Quàntiques / Quantum Science and Technology, Facultat de Física, Universitat de Barcelona. Curs: 2024-2025. Tutors: Quentin Redon, Leticia Tarruell

Matèries

Ordinadors quàntics, Estronci, Treballs de fi de màster

Matèries (anglès)

Quantum computers, Strontium, Master's thesis

Citació

Col·leccions

Màster Oficial - Ciència i Tecnologia Quàntiques / Quantum Science and Technology

Citació

ROCHLITZER PUIG, Derik. Atomic Properties & Red Laser System for a Sr-Based Rydberg Quantum Simulator. [consulta: 6 de gener de 2026]. [Disponible a: https://hdl.handle.net/2445/222571]

Exportar metadades

JSON - METS

Compartir registre