Simulating Magnetic Pulses for Optimally Controlled NMR in Electrochemistry

Römer, Armin; Gajewski, Marvin; Somoza, Alejandro D.; Granwehr, Josef; Köcher, Simone Swantje; Horstmann, Birger

Poster (After Call)

FZJ-2024-07487

Simulating Magnetic Pulses for Optimally Controlled NMR in Electrochemistry

Römer, A.FZJ*RWTH* ; Gajewski, M. ; Somoza, A. D. ; Köcher, S. S.FZJ* ; Granwehr, J.FZJ*RWTH* ; Horstmann, B.

2024

MQV Symposium: Towards applications of quantum computing, Munich, RWTH Aachen, Germany, 11 Nov 2024 - 12 Nov 2024

Abstract: We present current progress in the simulation of magnetic pulses on ion trap quantum devices.Magnetic pulses, optimized with quantum optimal control (QOC), enable the selective addressation and investigation of interfaces in magnetic resonance experiments by exploiting local changes in the magnetic field.Since QOC algorithms require full simulations of the relevant quantum dynamics, the method is still inapplicable for complex coupled systems, such as e.g. Nafion.By using quantum devices, we hope to extend the QOC method beyond what is classically feasible.

Contributing Institute(s):

Grundlagen der Elektrochemie (IET-1)

Research Program(s):

Appears in the scientific report 2024

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Record created 2024-12-19, last modified 2024-12-19

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