S
Steffen J. Glaser
Researcher at Technische Universität München
Publications - 305
Citations - 14603
Steffen J. Glaser is an academic researcher from Technische Universität München. The author has contributed to research in topics: Optimal control & Quantum computer. The author has an hindex of 53, co-authored 301 publications receiving 12661 citations. Previous affiliations of Steffen J. Glaser include Norwich Research Park & University of Washington.
Papers
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Discrete-valued-pulse optimal control algorithms: Application to spin systems
Ghassen Dridi,Ghassen Dridi,Ghassen Dridi,M. Lapert,Julien Salomon,Steffen J. Glaser,Dominique Sugny,Dominique Sugny +7 more
TL;DR: In this article, the authors extend the framework of optimal control techniques to the situation where the control field values are restricted to a finite set and propose generalizations of the standard GRAPE algorithm suited to this constraint.
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Complete assignment of the deoxyribose 5'/5" proton resonances of the EcoRI DNA sequence using isotropic mixing.
TL;DR: All 5'/5" proton resonances of the EcoRI restriction site DNA dodecamer [d(CGCGAATTCGCG)]2 have been assigned and will allow the interpretation of intra- and interresidue NOEs to these protons, providing information about the DNA backbone conformation.
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Exploring the limits of electron-nuclear polarization transfer efficiency in three-spin systems
TL;DR: For three model systems, consisting of one electron spin and two nuclear spins, polarization transfer sequences were optimized using an optimal control based numerical algorithm, making it possible to explore the physical limits of achievable nuclear polarization enhancement in such systems.
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Ultrashort Broadband Cooperative Pulses for Multidimensional Biomolecular NMR Experiments
Sam Asami,Wolfgang Kallies,Johannes C. Günther,Maria Stavropoulou,Steffen J. Glaser,Michael Sattler +5 more
TL;DR: Optimized 90° pulse pairs were introduced as Ramsey-type cooperative (Ram-COOP) pulses for biomolecular NMR applications, providing broadband excitation with enhanced sensitivity and reduced artifacts even at magnetic fields >1.0 GHz 1 H Larmor frequency.
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Offset dependence of homonuclear hartmann-hahn transfer based on residual dipolar couplings in solution state NMR
TL;DR: In this paper, the offset dependence of homonuclear Hartmann-Hahn transfer is studied by numerical simulations of a multiple-pulse sequence and by the analytical treatment of a simple model experiment.