Shaped Optimal Control Pulses for Increased Excitation Bandwidth in EPR

Philipp E. Spindler, Yun Zhang, Burkhard Endeward, Naum I. Gershenzon, Thomas E. Skinner, Steffen J. Glaser, Thomas F. Prisner

Research output: Contribution to journalArticlepeer-review

Abstract

A 1 ns resolution pulse shaping unit has been developed for pulsed EPR spectroscopy to enable 14-bit amplitude and phase modulation. Shaped broadband excitation pulses designed using optimal control theory (OCT) have been tested with this device at X-band frequency (9 GHz). FT-EPR experiments on organic radicals in solution have been performed with the new pulses, designed for uniform excitation over a significantly increased bandwidth compared to a classical rectangular π /2 pulse of the same B 1 amplitude. The concept of a dead-time compensated prefocused pulse has been introduced to EPR with a self-refocusing of 200 ns after the end of the pulse. Echo-like refocused signals have been recorded and compared to the performance of a classical Hahn-echo sequence. The impulse response function of the microwave setup has been measured and incorporated into the algorithm for designing OCT pulses, resulting in further significant improvements in performance. Experimental limitations and potential new applications of OCT pulses in EPR spectroscopy will be discussed.

Original languageAmerican English
JournalJournal of Magnetic Resonance
Volume218
DOIs
StatePublished - May 1 2012

Disciplines

  • Physical Sciences and Mathematics
  • Physics

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