ProfessorsProfessors of Karlsruher Institut für TechnologieMichael Marthaler

Michael Marthaler

Karlsruher Institut für Technologie

H-index: 33

Europe-Germany

About Michael Marthaler

Michael Marthaler, With an exceptional h-index of 33 and a recent h-index of 23 (since 2020), a distinguished researcher at Karlsruher Institut für Technologie, specializes in the field of Quantum Computing, Spin based memory, Quantum Dots.

His recent articles reflect a diverse array of research interests and contributions to the field:

The impact of noise on the simulation of NMR spectroscopy on NISQ devices

Understanding Radicals via Orbital Parities

What physical model does a Trotterized time evolution on a noisy quantum computer effectively simulate?

Efficient Random Phase Approximation for Diradicals

Demonstration of system-bath physics on gate-based quantum computer

Method for modeling of a system by means of a quantum computer

Post-processing noisy quantum computations utilizing N-representability constraints

Method for error reduction in a quantum computer

Michael Marthaler Information

University	Karlsruher Institut für Technologie
Position	Institut für Theoretische Festkörperphysik Karlsruhe
Citations(all)	3064
Citations(since 2020)	1526
Cited By	2181
hIndex(all)	33
hIndex(since 2020)	23
i10Index(all)	60
i10Index(since 2020)	39
Email	Access Email
University Profile Page	Karlsruher Institut für Technologie
Google Scholar	View Google Scholar Profile

Michael Marthaler Skills & Research Interests

Quantum Computing

Spin based memory

Quantum Dots

Top articles of Michael Marthaler

Title	Journal	Author(s)	Publication Date
The impact of noise on the simulation of NMR spectroscopy on NISQ devices	arXiv preprint arXiv:2404.18903	Andisheh Khedri Pascal Stadler Kirsten Bark Matteo Lodi Rolando Reiner ...	2024/4/29
Understanding Radicals via Orbital Parities	arXiv preprint arXiv:2404.18787	Reza G Shirazi Benedikt M Schoenauer Peter Schmitteckert Michael Marthaler Vladimir Rybkin	2024/4/29
What physical model does a Trotterized time evolution on a noisy quantum computer effectively simulate?	Bulletin of the American Physical Society	Keith Fratus Kirsten Bark Nicolas Vogt Juha Leppäkangas Sebastian Zanker ...	2024/3/4
Efficient Random Phase Approximation for Diradicals	arXiv preprint arXiv:2404.18691	Reza G Shirazi Vladimir V Rybkin Michael Marthaler Dmitry S Golubev	2024/4/29
Demonstration of system-bath physics on gate-based quantum computer	arXiv preprint arXiv:2404.18828	Pascal Stadler Matteo Lodi Andisheh Khedri Rolando Reiner Kirsten Bark ...	2024/4/29
Method for modeling of a system by means of a quantum computer			2023/10/3
Post-processing noisy quantum computations utilizing N-representability constraints	arXiv preprint arXiv:2304.13401	Tomislav Piskor Florian G Eich Michael Marthaler Frank K Wilhelm Jan-Michael Reiner	2023/4/26
Method for error reduction in a quantum computer			2023/2/16
Quantum algorithm for solving open-system dynamics on quantum computers using noise	Physical Review A	Juha Leppäkangas Nicolas Vogt Keith R Fratus Kirsten Bark Jesse A Vaitkus ...	2023/12/22
The discrete noise approximation in quantum circuits	arXiv preprint arXiv:2311.00135	Keith R Fratus Juha Leppäkangas Michael Marthaler Jan-Michael Reiner	2023/10/31
Using gradient-based algorithms to determine ground-state energies on a quantum computer	Physical Review A	Tomislav Piskor Jan-Michael Reiner Sebastian Zanker Nicolas Vogt Michael Marthaler ...	2022/6/8
Efficient Classical Simulation of Lindblad Dynamics	APS March Meeting Abstracts	Michael Marthaler Keith Fratus Jan-Michael Reiner	2022
Topological-graph dependencies and scaling properties of a heuristic qubit-assignment algorithm	IEEE Transactions on Quantum Engineering	Matthew A Steinberg Sebastian Feld Carmen G Almudever Michael Marthaler Jan-Michael Reiner	2022/3/16
Quantum Computation for Electrochemical Energy Storage: Atomistic and Continuum Models in Battery Research		Alejandro Somoza Albert Pool Konstantin Lamp Marin Walt Nicolas Vogt ...	2022
Method for simulating a real spin system, more particularly a noisy spin system, by means of a quantum computer			2022/12/15
Quantum simulation of the spin-boson model with noisy gate-based quantum computer	APS March Meeting Abstracts	Juha Leppäkangas Kirsten Bark Michael Marthaler Jan-Michael Reiner	2022
Describing trotterized time evolutions on noisy quantum computers via static effective lindbladians	arXiv preprint arXiv:2210.11371	Keith R Fratus Kirsten Bark Nicolas Vogt Juha Leppäkangas Sebastian Zanker ...	2022/10/20
Obtaining effective noisy systems by simulating noiseless systems on NISQ hardware	APS March Meeting Abstracts	Nicolas Vogt Keith Fratus Juha Leppäkangas Jan-Michael Reiner Sebastian Zanker ...	2022
Preparing ground states with a broken symmetry with variational quantum algorithms	Quantum Science and Technology	Nicolas Vogt Sebastian Zanker Jan-Michael Reiner Michael Marthaler Thomas Eckl ...	2021/4/15
Finding symmetry-broken ground states with variational quantum algorithms	Bulletin of the American Physical Society	Nicolas Vogt Sebastian Zanker Jan-Michael Reiner Thomas Eckl Anika Marusczyk ...	2020/3/2