Graduate students members of IMPRS-QST
Meet Our Current PhD Students!
Our International Max Planck Research School for Quantum Science and Technology hosts nearly 120 PhD students from over 35 distinguished research groups. These members not only actively participate in program events but also play central roles in organizing activities and fostering a strong sense of community. Their engagement enriches our collective experience and contributes significantly to the dynamic environment of IMPRS-QST.
Below is the list of IMPRS-QST students and their research topics. For contact and additional details, please visit the individual members' webpages accessible through the links provided.
Atiye Abedinnia
Finite-Temperature Neural Quantum States
Daniel Adler
Microscopy of out-of-equilibrium bosonic quantum gases
Suchita Agrawal
Microscopic characterization of dynamics in large-scale quantum gases
Nadeem Akhlaq
Quantum Transduction between Microwave and Optical Photons via a Quantum Dot Molecule
Héloïse Albot
Quantum hybrid algorithms and tensor network simulations
Damiano Aliverti-Piuri
Foundations of Correlations in Fermionic Systems
Maximilian Ammenwerth
Development of a Quantum Gas Microscope for Ultracold Strontium
Johannes Arceri
Floquet topological phases with interactions and disorder
Marnix Barendregt
Engineering of Fermi-Hubbard Hamiltonians in a Quantum Gas Microscope
Drishti Baruah
Quantum Information Theory and Computation
Fabian Becker
Nanophotonic Quantum Memories
Amine Ben Mhenni
Quantum Optics with 2D Materials
Pit Bermes
Magnetic Polarons in doped Mott Insulators
Tizian Blatz
Numerical simulations for the optimized exploration of strongly correlated quantum matter
with cold atom quantum simulators
with cold atom quantum simulators
Annika Böhler
Numerical and analytical studies of Fermi-Hubbard models
Julian Bösl
Dynamics of Excitations in Topological Systems
Karl Briegel
Parallelized Quantum Sensing and Metrology for Imaging Applications
Florian Burger
A Telecom Wavelength Quantum Memory Based on Erbium Dopants in Silicon
Giovanni Canossa
Fracton models in Quantum Error Correction
Ola Carlsson
Probing transport in optical lattice quantum simulators
Alberto Cavallar
Fracton Models for Quantum Error Correction
María Cea Fernández
Development of Tensor Network Methods for Non-Equilibrium Setups and their Application to the Study of Contrained Systems
Ludvik Cigna
Advancing quantum algorithms for quantum chemistry through local information
Denise Cocchiarella
Tensor networks in the simulation of quantum matter
Beatrice Costa
Quantum communication based on deterministic sources
Marianna Crupi
Model for Noise Characterization on Quantum Devices
Esther Cruz Rico
Quantum algorithms for near-term devices
Marcus Culemann
Quantum Simulation with Assembled Arrays of Ultrcold Fermions
Gaia De Paciani
Exploring emergent gauge theories in quantum simulators
Beatriz Dias
Classical simulation of quantum information processing protocols
Fabian Döschl
Investigating Lattice Gauge Theories with Neural Quantum States
Gesa Dünnweber
Vacuum correlations in engineered photonic and phononic systems
Lucia Cuervo Valor
Lattice gauge theory applications of superconducting quantum devices
Balázs Dura-Kovács
Designing a cavity atom array for fast atomic state readout
Florian Egli
XUV Frequency Comb Spectroscopy of Trapped He+Ions
Florian Fertig
Atom-Photon and Atom-Atom Entanglement
Marta Florido Llinàs
Tensor network methods and quantum algorithms for many-body physics
Simone Foderà
Quantics Tensor Cross Interpolation
Markus Frankenbach
Quantics Tensor Cross Interpolation: A Tool for Solving the Parquet Equations
Anxiang Ge
Computing susceptibilities with the functional renormalization group method
Nilesh Goel
Erbium dopants in Slow-Light Waveguides
Timothy Harris
Quantum simulation of strongly correlated matter with bosonic statistics
Alexander Hesse
Ultracold Atoms in hexagonal optical lattices
Tim Höhn
Implementing Lattice Gauge Theories Using Ultracold Ytterbium Atoms
Moritz Hornung
Quantum simulation of Floquet topological phases
Ming Huang
The multi-band impurity solver based on NRG & DMFT
Reinis Irmejs
Quantum algorithms for quantum simulation
Gloria Isbrandt
Fractonic Phases and Their Realizations in Constrained Quantum Many-Body Systems
Rohan Joshi
Qudit quantum simulations of lattice gauge theories
Wilhelm Kadow
Numerical studies of hole doping in quantum spin liquids
Simon Karch
Quantum gas microscopy of strongly-interacting topological phases with ultracold Cesium atoms
Kevin Kiener
Development of a scalable readout and control system for superconducting qubits
Matthew Kiser
Simulation of Quantum Chemistry using Quantum Computers
Tomas Kreißel
Quantum Spin Liquids on 2D Lattices
Eduard Koller
Light Matter Coupling in Quantum Magnets
Oleksandra Kovalska
Tree tensor network studies of quantum impurity models
Marc Langer
Verification Protocols for Quantum Information Processing Tasks
Marco Lastres
Superoperator Symmetries in Quantum Many Body Systems
Isabel Le
Classical Methods for Quantum Computing
Joachim Leibold
Quantum Sensors for Nanoscale Spectroscopy of 2D-Materials
Yahui Li
Non-ergodic dynamics in open quantum many-body-systems
Michelle Lienhart
Semiconductor spin-photon interfaces for the deterministic generation of 2D photonic cluster states
Simon Linsel
Exploring Confinement in Lattice Gauge Theories with Quantum Simulators
Daniele Lopriore
Microwave-to-telecom conversion based on erbium dopants in photonic nanostructures
Sirui Lu
Algorithms and machine learning for quantum many-body physics
Maxine Luo
Probing Off-diagonal Eigenstate Thermalization with Tensor Networks
Maximilian Lutz
Quantum Computation and Simulation
Mikolaj Metelski
Quantum Many-Body Physics in Designed Two-Dimensional Heterostructures
Daniel Molpeceres
Applications of Quantum Information Processing and their Verification
Jordi Montañá López
Non-Markovian Open Quantum Systems
Jorge Moreno
XUV spectroscopy on the 1S-2S transition in singly ionized helium
Raúl Morral Yepes
Non-equilibrium phases of matter
Nader Mostaan
Dynamics of mobile quantum impurities in strongly correlated topological systems
Kevin Mours
Local control in a local neutral-atom quantum computing platform
Luca Muscarella
Programmable Fermi-Hubbard Quantum Simulation in a Hybrid Quantum Processor
Avedis Neehus
Disorder and Topology
Johannes Obermeyer
Quantum Simulation of the Pseudo Gap Phase in the Doped Hubbard Model
Adrian Paulus
Many-body correlations in semiconducting 2D materials
Fabian Pauw
Hidden Order in Fractional Chern Insulators
Mathias Pelz
Cluster-DMFT+NRG for realistic materials/multiband structures
Fabian Pichler
Strongly correlated phases in moiré heterostructures
Jakob Pforr
Spin photon interfaces on a silicon chip
Jindaratsamee Phrompao
Molecules cooling
Run Fa Jonny Qiu
Optomechanical Transducer based on Yttrium-Iron-Garnet
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
Anton Romen
Fractionalized Prethermalization
Anna Rupp
Spectroscopy of 2D semiconductor heterostructures under varying pressure
Francesc Sabater
Benchmark and Verification of Quantum Computers
Fabian Salamon
Entanglement of Erbium Dopants in Optical Resonators
Ignacio Salgado Linares
Transport in frustrated magnets
Lorenz Sauerzopf
Quantum photonic-integrated circuits based on rare-earth ions
Bianca Scaparra
Single-photon sources and spin qubits based on quantum dots in the telecommunication bands
Lukas Schamriß
Dissipative quantum many-body physics with photons
Aaron Schäpers
Slow light in on‑chip silicon resonators
Benjamin Schiffer
Developing and applying algorithms for early quantum devices
Lukas Schleicher
2D Materials in Cavity-Optomechanics
Henning Schlömer
Strongly correlated quantum systems with mixed dimensionality
Benedikt Schneider
Functional Renormalization Group Treatment of Quantum Magnets with a Majorana Fermion Representation
Tim Schneider
Microwave-to-Optical Transduction with Quantum Dot Molecules
Kunal Singh
Development of a novel double-frequency optical clock experiment
Timo Sommer
Quantum Optics on a Chip
Stefan Strohauer
Quantum Photonic Detectors
Renhao Tao
Construction of a novel experimental platform for Rydberg-based quantum simulations with alkaline earth atoms
Sachin Teli
Numerical methods of Tensor Network Algorithms
Christopher Thalacker
Spin-photon-interfaces in quantum dot molecules
Muhammad Thariq
Low Repetition Rate XUV Frequency Combs for Precision Spectroscopy
Hendrik Timme
Bottom-Up Assembly of a Hubbard Simulator
Julian Trapp
Light-matter interaction in low-dimensional semiconductor structures
Anka Van de Walle
Symmetries and dualities in neural network quantum states
Si Wang
Quantum simulation of doped antiferromagnets with a quantum gas microscope
Tim Wedl
Excitonic Sensing and Tuning in TMDs
Melissa Will
Engineering Hilbert space fragmentation in quantum systems
Josef Willsher
Dynamics of Quantum Magnets
Kaidi Xu
Quantum Simulation of Lattice Gauge Theory
Yilun Yang
Tensor network algorithms for finite energy and non-equilibrium scenarios
Xiehang Yu
Quantum dual-unitary circuits and exactly solvable models
Amin Zamani
Quantum simulation and computation with ultracold ytterbium atoms
Philip Zechmann
Tensor Network Approaches to Ultracold Atoms Driven out of Equilibrium
Caterina Zerba
Non-Equilibrium Dynamics of Contrained Quantum Matter
Jin Zhang
Random Unitaries in a Rapid Optical Lattice Simulator
Yiru Zhou
Long-Distance Atom-Atom Entanglement
Agnes Zinth
On-Chip Optomechanics