Graduate students members of IMPRS-QST
Meet our PhD students!
The International Max Planck Research School for Quantum Science and Technology is a training center for nearly 90 PhD students from over 30 research groups.
For contact and other details, please refer to the webpages of the individual members by clicking the links below.
Daniel Adler
Microscopy of out-of-equilibrium bosonic quantum gases
Suchita Agrawal
Microscopic characterization of dynamics in large-scale quantum gases
Héloïse Albot
Quantum hybrid algorithms and tensor network simulations
Maximilian Ammenwerth
Development of a Quantum Gas Microscope for Ultracold Strontium
Ofir Arzi
Non-equillibrium Quantum Dynamics
Fabian Becker
Nanophotonic Quantum Memories
Julian Bender
Variational approaches to lattice gauge theory
Oscar Bettermann
Investigation of alkaline earth-like fermionic quantum gases in optical lattices
Vjosa Blakaj
Entropy and catalysis from a quantum perspective
Frederik Bopp
Quantenoptik mit Quantenpunkt-Molekülen
Karl Briegel
Parallelized Quantum Sensing and Metrology for Imaging Applications
Florian Burger
A Telecom Wavelength Quantum Memory Based on Erbium Dopants in Silicon
David Castells Graells
Quantum emitters in exotic baths, from few to many body behavior
Asli Cebe
Numerical simulation of quantum many body dynamics using tensor network algorithms
Shin Ho Choe
Quantum Computing with Near-Term Devices
Arthur Christianen
Many-body phenomena in ultracold atomic gases
Beatrice Costa
Quantum communication based on deterministic sources
Esther Cruz Rico
Quantum algorithms for near-term devices
Beatriz Dias
Classical simulation of quantum information processing protocols
Oriana Dießel
Bipolarons and induced pairing in ultra-cold atoms and
van-der-Waals materials
Balázs Dura-Kovács
Designing a cavity atom array for fast atomic state readout
Jan Dziewor
Entanglement and Weak Measurements
Noelia Fernández
Superconductivity in graphene and few-layer graphene
Florian Fertig
Atom-Photon and Atom-Atom Entanglement
Marta Florido Llinàs
Tensor network methods and quantum algorithms for many-body physics
Miguel Frías Pérez
Tensor Network Methods in Many-Body Physics
Albert Gasull Celades
Continuous tensor networks, symmetries and topological phases
Anxiang Ge
Computing susceptibilities with the functional renormalization group method
Marcel Gievers
Functional approaches to Fermi polarons in cold atoms and solid-state systems
Andreas Gleis
Quantum Phase Transitions in Kondo Lattice Models
Guillermo González García
Development of quantum algorithms for NISQ devices and analog quantum simulators
Johannes Halbinger
Investigation of quantum critical points in metals via renormalization group methods
Alexander Hesse
Ultracold Atoms in hexagonal optical lattices
Tim Höhn
Implementing Lattice Gauge Theories Using Ultracold Ytterbium Atoms
Lukas Homeier
Strongly-correlated polarons in frustrated spin systems, and their quantum simulation
Lukas Husel
Investigation of light-matter coupling in two-dimensional semiconductors
Christopher Ianzano
Atomic Cycles in a Strongly-coupled Cavity QED System
Reinis Irmejs
Quantum algorithms for quantum simulation
Wilhelm Kadow
Numerical studies of hole doping in quantum spin liquids
Matthew Kiser
Simulation of Quantum Chemistry using Quantum Computers
Matjaz Kebric
One-dimensional Z2 Lattice Gauge Theories with dynamical matter
Oleksandra Kovalska
Tree tensor network studies of quantum impurity models
Valentin Leeb
Anomalous Quantum Oscillations
Joachim Leibold
Quantum Sensors for Nanoscale Spectroscopy of 2D-Materials
Jheng-Wei Li
Development of tensor network methods for low-dimensional quantum lattices
Julia Liebert
Quantum information theoretical approach to functional theories
Yahui Li
Non-ergodic dynamics in open quantum many-body-systems
Yujie Liu
Topological excitation in quantum many-body system
Daniele Lopriore
Microwave-to-telecom conversion based on erbium dopants in photonic nanostructures
Sirui Lu
Algorithms and machine learning for quantum many-body physics
Nader Mostaan
Dynamics of mobile quantum impurities in strongly correlated topological systems
Jorge Moreno
XUV spectroscopy on the 1S-2S transition in singly ionized helium
Mattia Moroder
Tensor network methods for open quantum system with applications to biological systems
Rajah Nutakki
Numerical Studies of Strong Interactions and Topology in Flux Lattices
Mehmet Öncü
Scalable Neutral Atom Quantum Computing
Felix Palm
New Variational Approaches to Fractional Chern Insulators and Anyonic Excitations
Irene Papaefstathiou
Development and application of numerical tensor network algorithms for the study of quantum many body problems
Giulio Pasqualetti
Many-body states of ultracold ytterbium with strong correlations in state-dependent lattices
Mathias Pelz
Cluster-DMFT+NRG for realistic materials/multiband structures
Jindaratsamee Phrompao
Molecules cooling
Borislav Polovnikov
Spectroscopy of 2D semiconductor heterostructures at very low temperatures
Manuel Rieger
Quantum optics of hybrid solid state systems
Marc Ritter
Multiloop functional renormalization method for quantum spin systems
Nepomuk Ritz
Real-Frequency Dynamics of Strongly Correlated Electrons:
Combining the Multiloop Functional Renormalization Group and Dynamical Mean-Field Theory
Combining the Multiloop Functional Renormalization Group and Dynamical Mean-Field Theory
Fabian Salamon
Entanglement of Erbium Dopants in Optical Resonators
Bianca Scaparra
Single-photon sources and spin qubits based on quantum dots in the telecommunication bands
Benjamin Schiffer
Developing and applying algorithms for early quantum devices
Henning Schlömer
Strongly correlated quantum systems with mixed dimensionality
Benedikt Schneider
Functional Renormalization Group Treatment of Quantum Magnets with a Majorana Fermion Representation
Timo Sommer
Quantum Optics on a Chip
Kritsana Srakaew
Floquet engineering in optical lattices
Etienne Staub
Developing a Yb Quantum Gas Microscope for Simulating Lattice Gauge Theories
Stefan Strohauer
Quantum Photonic Detectors
Renhao Tao
Construction of a novel experimental platform for Rydberg-based quantum simulations with alkaline earth atoms
Christopher Thalacker
Spin-photon-interfaces in quantum dot molecules
Julian Trapp
Light-matter interaction in low-dimensional semiconductor structures
Jakob Unfried
Gradient-based Variational Optimization of Higher Dimensional Tensor Network States
Jonas von Milczewski
Induced correlations in many-body systems
Marcel Wagner
Many-body physics in ultracold atoms and semiconductors
Si Wang
Quantum simulation of doped antiferromagnets with a quantum gas microscope
Zhi-Yuan Wei
Photonic quantum information protocols with atomic array
Melissa Will
Engineering Hilbert space fragmentation in quantum systems
Josef Willsher
Dynamics of Quantum Magnets
Yilun Yang
Tensor network algorithms for finite energy and non-equilibrium scenarios
Yiru Zhou
Long-Distance Atom-Atom Entanglement
Philip Zechmann
Tensor Network Approaches to Ultracold Atoms Driven out of Equilibrium