Prof. Stefan Filipp

Prof. Dr. techn. Stefan Filipp

Technical University of Munich

Chair of Technical Physics (Prof. Filipp)

Postal address

Walther-Meißner-Straße 8
85748 Garching b. München

Phone: +49 89 289 14201
Homepage
E-mail: stefan.filipp@tum.de

Curriculum Vitae

Research

Quantum Computing and Information Processing: In our experiments, we use superconducting qubits, which can be manipulated on short time scales with respect to their coherence times within a cryogenic environment. Thanks to the relatively simple and reliable fabrication there exists a clear path towards a scalable architecture to realize the building blocks of a future quantum computer.

93 Publications

Article 2026

Niobium air bridges as low-loss components for superconducting quantum hardware

Physical Review Applied

Abstract: Scaling up superconducting quantum processors necessitates the use of a high routing density for readout and control lines, relying on low-loss interconnects to maintain design flexibility and device…

Bruckmoser, N.; Koch, L.; Tsitsilin, I. et al.

DOI

Article 2026

Experimental setup for the combined study of spin ensembles and superconducting quantum circuits

Cryogenics

Abstract: We demonstrate magnetic crosstalk suppression by more than eight orders of magnitude in a cryogenic hybrid platform that combines a spin-ensemble sample volume with a nearby superconducting-qubit…

Vogl, Lukas; Huber, Gerhard B.P.; Strinić, Ana et al.

DOI

Article 2026

Non-Markovian thermal reservoirs for autonomous entanglement distribution

Quantum

Abstract: We describe a novel scheme for the generation of stationary entanglement between two separated qubits that are driven by a purely thermal photon source. While in this scenario the qubits remain in a…

Agustí, Joan; Schneider, Christian M.F.; Fedorov, Kirill G.; Filipp, Stefan; Rabl, Peter

DOI

Article 2026

High temporal stability of niobium superconducting resonators by surface passivation with organophosphonate self-assembled monolayers

Communications Materials

Abstract: One main limiting factor towards achieving high coherence times in superconducting circuits is two-level system (TLS) losses. Mitigating such losses requires controlling the formation of native oxides…

Gupta, Harsh; Pereira, Rui; Koch, Leon et al.

DOI

Article 2025

Parity-dependent state transfer for direct entanglement generation

Nature Communications

Abstract: As quantum information technologies advance, challenges in scaling and connectivity persist, particularly the need for long-range qubit connectivity and efficient entanglement generation. Perfect…

Roy, F. A.; Romeiro, J. H.; Koch, L. et al.

DOI

Article 2025

Parametric Multielement Coupling Architecture for Coherent and Dissipative Control of Superconducting Qubits

PRX Quantum

Abstract: As systems for quantum computing keep growing in size and number of qubits, challenges in scaling the control capabilities are becoming increasingly relevant. Efficient schemes to simultaneously…

Huber, G. B.P.; Roy, F. A.; Koch, L. et al.

DOI

Article 2025

Closed-loop optimization for high-fidelity controlled-Z gates in superconducting qubits

Physical Review Applied

Abstract: Achieving fast and high-fidelity qubit operations is crucial for unlocking the potential of quantum computers. In particular, reaching low gate errors in two-qubit gates has been a long-standing…

Glaser, N. J.; Roy, F. A.; Tsitsilin, I. et al.

DOI

Article 2025

Subharmonic Control of a Fluxonium Qubit via a Purcell-Protected Flux Line

PRX Quantum

Abstract: Protecting qubits from environmental noise while maintaining strong coupling for fast high-fidelity control is a central challenge for quantum information processing. Here, we demonstrate a control…

Schirk, J.; Wallner, F.; Huang, L. et al.

DOI

Article 2025

A Versatile Analytical Model for Fast and Accurate Determination of Feedline-Coupled Resonators for Superconducting Qubit Readout

IEEE Transactions on Microwave Theory and Techniques

Abstract: Superconducting quantum chips commonly utilize quarter-wavelength (λ/4) transmission line resonators as readout circuits. An analytical model for the accurate determination of resonance frequencies…

Luo, Zhen; Richard, Léa; Tsitsilin, Ivan et al.

DOI

Conference contribution 2025

Quantum Entrepreneurship Lab

4th IEEE Quantum Science and Engineering Education Conference

Abstract: The Quantum Entrepreneurship Lab (QEL) is a one-semester, project-based course at the Technical University of Munich (TUM), designed to bridge the gap between academic research and industrial…

Sander, Aaron; Cercola, Rosaria; Capogrosso, Andrea et al.

DOI

Winter term 2025/26

Title	Duration	Type	Lecturer (assistant)
Exercise to Quantum Computing with Superconducting Qubits: Basic Concepts	2	UE	S. Filipp [L] V. Bader C. Schneider
FOPRA Experiment 108: Qubit Control and Characterization for Superconducting Quantum Processors (AEP, KM, QST-EX)	1	PR	S. Filipp [L] D. Bazulin J. Englhardt J. Feigl S. A. Schöbe L. Valor Menendez
From Nanotechnology to Quantumcomputing: Guided Tour at the Walther-Meissner-Institute	0.1	EX	S. Filipp [L]
Journal Club on Quantum Systems	2	SE	S. Filipp A. Bhattacharjee
Quantum Computing with Superconducting Qubits: Basic Concepts	2	VO	S. Filipp V. Bader C. Schneider
Quantum Ventures Practical Seminar	2	SE	S. Filipp R. Cercola D. Reichmuth
Revision Course to Superconducting Quantum Circuits	2	RE	S. Filipp [L] C. Schneider
Superconducting Quantum Circuits	2	PS	S. Filipp M. Werninghaus C. Schneider
Walther-Meißner-Seminar on Topical Problems of Low Temperature Physics	2	SE	S. Filipp P. Rabl

Summer term 2026

Title	Duration	Type	Lecturer (assistant)
Exercise to Quantum Computing with Superconducting Qubits 2: Advanced Topics	2	UE	B. Lienhard [L] V. Bader S. Filipp C. Schneider
From Nanotechnology to Quantumcomputing: Guided Tour at the Walther-Meissner-Institute	0.1	EX	S. Filipp
Journal Club on Quantum Systems	2	SE	S. Filipp A. Bhattacharjee
Mentoring in the Bachelor’s Program Physics	0.2	KO	S. Filipp
Quantum Computing with Superconducting Qubits: From Fabrication to Algorithms	2	VO	B. Lienhard V. Bader C. Schneider S. Filipp
Quantum Entrepreneurship Laboratory (PH8128, IN2107)	2	HS	C. Mendl F. Pollmann R. Wille S. Filipp R. Cercola
Revision Course to Quantum Entrepreneurship Laboratory	2	RE	S. Filipp [L] R. Cercola C. Mendl F. Pollmann
Revision Course to Superconducting Quantum Circuits	2	RE	S. Filipp [L] T. Schneider
Superconducting Quantum Circuits	2	PS	S. Filipp M. Werninghaus
Walther-Meißner-Seminar on Topical Problems of Low Temperature Physics	2	SE	S. Filipp P. Rabl

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Department of Physics

Technische Universität
München

TUM School of Natural Sciences
James-Franck-Str. 1
85748 Garching

Prof. Stefan Filipp

Prof. Dr. techn. Stefan Filipp

Postal address

Latest works

Teaching

Winter term 2025/26

Summer term 2026