Find more about us at www. An open postdoctoral position at the Institute for Quantum Computing IQC , University of Waterloo, focuses on the application of coherent control techniques in ESR to address challenges in the field of quantum information processing. Recent research in our group has spanned topics including algorithmic cooling, randomized benchmarking of quantum gate fidelities, and closed-loop feedback methods for quantum control. IQC is a world-leading institute for research and education in Quantum Information.
IQC has significantly expanded its infrastructure to support experimental research, with a state-of-the-art nanofabrication and metrology centre. Interested applicants please contact Prof. Jonathan Baugh baugh uwaterloo. Raymond Laflamme laflamme uwaterloo. Applications will be accepted until the position is filled. The selected candidate will realize the research tasks in the project OPUS " Rational design of molecular nanomagnets: synthesis, characterization, theoretical description and computational modeling of their properties" financed by the National Science Centre under the terms of the Agreement for this project.
Position Name: PhD student Doktorant - stypendysta in the project OPUS " Rational design of molecular nanomagnets: synthesis, characterization, theoretical description and computational modeling of their properties". Duration: up 18 months, initially for 6 months with possible extension after probation period. Principal Investigator and Supervisor : Prof. Substantial knowledge of solid state physics, quantum mechanics, and group theory. Other qualifications required:.
Scope of work within project tasks:. Carrying out calculations using suitable computer programs. Comparative analysis and systematic categorization of experimental and theoretical data for selected molecular nanomagnets MNM. Development of better theoretical framework for description and prediction of properties of MNM complexes.
Individual literature searches. Active participation in group activities and preparation of publications. Additional information:. Application deadline: For more information contact: Prof. A postdoctoral researcher position is available in the research group of Prof.
This postdoctoral position is a one-year appointment with potential for renewal up to three years. This research will be conducted in close collaboration with Prof.
Susannah Scott in the Department of Chemistry and Biochemistry, and the Department of Chemical Engineering at the University of California Santa Barbara, as well as other chemists and chemical engineers in the field of heterogeneous catalysis. Thus, the applicant should have a broad interest in the field of catalysis, while it is expected that the applicant be an expert in magnetic resonance spectroscopy and methods. While prior knowledge and skills in EPR, Overhauser DNP and solid-state NMR is appreciated, a general proficiency in magnetic resonance experiments and concepts, and willingness to perform and learn new experiments and methods, required to solve the scientific question at hand, will be valued most.
UCSB is especially interested in candidates who can contribute to the diversity and excellence of the academic community through research, teaching and service.
Principles and applications of esr spectroscopy
Applicants should submit a cover letter, curriculum vitae including publications, names of references, and a 2-page statement of purpose to songi chem. Review of applications will begin immediately, priority given to applications send by October 1, , and will continue until filled. The position will be focused on development of pulsed high-field EPR methods and applications at W-band 94 GHz and potentially higher frequencies.
The successful candidate will have at her or his disposal a state-of-the-art high-power 1 kW peak W-band spectrometer developed at the University of St. Applicants should be comfortable working on hardware development.
However, the end-goal centers on the materials and biological applications. The EMR facility additionally boasts a wide range of other unique pulsed and continuous wave high-field EPR instruments spanning the range from 9 GHz to 2. The group comprises six faculty-level researchers, an engineer who assists with instrument development, as well as a cohort of graduate students and postdocs. Minimum qualifications include a Ph. To apply, please send a CV, a cover letter describing your experience and research interests, and the contact information for three references, preferably by email to:.
Email: mfitch magnet. This position is fully funded for a period of 3 years by the National Science Foundation. This method has been presented from different viewpoints in the past.
Previous monographs on ESR spectroscopy have focused on the technique as such, while the general textbooks in physics, chemistry or spectroscopy only briefly explain the applications, which are mainly presented in specialist reviews and in the original literature. The present book is based upon the authors' long experience of teaching the subject to a mixed audience, with backgrounds ranging from physics to biology. It aims both at providing the principles of continuous wave and pulsed ESR techniques and to illustrate the potential of the method by examples of applications.
The principles of ESR, multi-resonance and pulsed ESR methods, the analysis of spectra, and multifrequency and high field ESR techniques treated in the first four chapters are thus followed by five chapters exemplifying recent applications in molecular science, in catalysis and environmental science, in polymer science, in spin labeling and molecular dynamics, and in quantitative ESR. Theoretical derivations are in general left out, as they are presented repeatedly in previous works. The necessary theory is instead illustrated by practical examples from the literature.
Commonly used computer codes to evaluate experimental ESR data are described with examples. Internet addresses to download the software are given, whenever possible. Gerasimos Konstantatos. Ernest M Henley. Solid State Physics. Robert L. Alyn G. Semiconductor Optoelectronic Devices. Joachim Piprek. Kenneth J. Superlattice to Nanoelectronics. Raphael Tsu. Frans Spaepen. Elihu Abrahams.
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