Mark Steudtner
Delft University of Technology
20 Papers
199 Citations
Mark Steudtner is an academic researcher from Delft University of Technology. The author has contributed to research in topics: Quantum computer & Qubit. The author has an hindex of 10, co-authored 17 publications. Previous affiliations of Mark Steudtner include Free University of Berlin & Dresden University of Technology.
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Papers
OpenFermion: The Electronic Structure Package for Quantum Computers
Jarrod R. McClean,Jarrod R. McClean,Nicholas C. Rubin,Kevin J. Sung,Kevin J. Sung,Ian D. Kivlichan,Ian D. Kivlichan,Xavier Bonet-Monroig,Xavier Bonet-Monroig,Yudong Cao,Chengyu Dai,E. Schuyler Fried,Craig Gidney,Brendan Gimby,Pranav Gokhale,Thomas Häner,Tarini S. Hardikar,Vojtěch Havlíček,Oscar Higgott,Cupjin Huang,Josh Izaac,Zhang Jiang,Zhang Jiang,Xinle Liu,Sam McArdle,Matthew Neeley,Thomas E. O'Brien,Thomas E. O'Brien,Bryan O'Gorman,Bryan O'Gorman,Isil Ozfidan,Maxwell D. Radin,Jhonathan Romero,Nicolas P. D. Sawaya,Bruno Senjean,Kanav Setia,Sukin Sim,Damian S. Steiger,Damian S. Steiger,Mark Steudtner,Mark Steudtner,Mark Steudtner,Qiming Sun,Wei Sun,Daochen Wang,Fang Zhang,Ryan Babbush,Ryan Babbush +47 more
- 30 Apr 2020
TL;DR: OpenFermion as mentioned in this paper is an open-source software library written largely in Python under an Apache 2.0 license, aimed at enabling the simulation of fermionic and bosonic models and quantum chemistry problems on quantum hardware.
Fermion-to-qubit mappings with varying resource requirements for quantum simulation
TL;DR: In this paper, it was shown that any classical code used to map the state of a Fock space to qubits gives rise to a mapping of fermionic models to quantum gates, which leads to significant qubit savings albeit at the expense of additional quantum gates.
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A Crossbar Network for Silicon Quantum Dot Qubits
R. Li,R. Li,L. Petit,L. Petit,David P. Franke,David P. Franke,Juan Pablo Dehollain,Juan Pablo Dehollain,Jonas Helsen,Mark Steudtner,Mark Steudtner,Nicole K. Thomas,Zachary R. Yoscovits,Kanwal Jit Singh,Stephanie Wehner,Lieven M. K. Vandersypen,Lieven M. K. Vandersypen,Lieven M. K. Vandersypen,James S. Clarke,Menno Veldhorst,Menno Veldhorst +20 more
TL;DR: In this article, a three-layer design is proposed to define qubit and tunnel barrier gates, and a double stripline on top of the structure can drive high-fidelity single-qubit rotations.
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Lowering qubit requirements for quantum simulations of fermionic systems
Mark Steudtner,Stephanie Wehner +1 more
TL;DR: In this article, it was shown that any classical code used to map the state of a Fock space to qubits gives rise to a mapping of fermionic models to quantum gates, which leads to significant qubit savings albeit at the expense of additional quantum gates.
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•Posted Content
OpenFermion: The Electronic Structure Package for Quantum Computers
Jarrod R. McClean,Kevin J. Sung,Ian D. Kivlichan,Yudong Cao,Chengyu Dai,E. Schuyler Fried,Craig Gidney,Brendan Gimby,Pranav Gokhale,Thomas Häner,Tarini S. Hardikar,Vojtěch Havlíček,Oscar Higgott,Cupjin Huang,Josh Izaac,Zhang Jiang,Xinle Liu,Sam McArdle,Matthew Neeley,Thomas E. O'Brien,Bryan O'Gorman,Isil Ozfidan,Maxwell D. Radin,Jhonathan Romero,Nicholas C. Rubin,Nicolas P. D. Sawaya,Kanav Setia,Sukin Sim,Damian S. Steiger,Mark Steudtner,Qiming Sun,Wei Sun,Daochen Wang,Fang Zhang,Ryan Babbush +34 more
TL;DR: OpenFermion as discussed by the authors is an open-source software library written largely in Python under an Apache 2.0 license, aimed at enabling the simulation of fermionic models and quantum chemistry problems on quantum hardware.
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