Currently we are working on adding ENDOR simulation and speed up calculation time by parallel computing. We continue to improve and add new features all the time.
The program is free for download and it is an open code so feel free to test, check the code and send us your comment for improvement. The program was designed and constructed by Raanan Carmieli from various codes we had in our group written by Dr. Repeat, no byte order switching is necessary.
The program expects Motorola byte sequence files so that no operation is required in between the Bruker and PC systems. Pulse T 2 Fitting with an indication towards DEER data quality based on the T 2. Power Saturation Data Processing (peak to peak spectrum height and P 1/2 Determination) Pulse T 2 Fitting. We have designed and constructed a window-interfaced EPR simulation package for simulating and fitting EPR data using MATLAB. Bruker ESP-300 spectrometer (with the ESP-1600 or newer data system) format data and parameter files. Comparison with a TEMPO Standard Curve for ESE-EPR spectra to estimate the percentage of spins being observed. EPR simulation package for simulating and fitting EPR data using MATLAB. The MW-bridge is equipped with two phase locked MW sources for coherent ELDOR experiments.įor sample excitation the lab is equipped with two Quanta-Ray nanosecond Nd-YAG/OPO laser systems. Our lab is equipped with Bruker E-680X/W Pulse-EPR Spectrometer System with. This spectrometer can operate at CW and Pulse modes and has a MW output of maximum 10 W at the resonator and allow us to give short pulses up to 10ns for p/2 pulses. The angular dependence of the ENDOR spectrum was fit to a spin Hamiltonian using a computer in order to determine the hyperfine tensors of those nuclei contributing appreciably to the hyperfine. of chromium and grown by the Czochralski method have been investigated by employing a Bruker. ENDOR line positions were monitored as a crystal was rotated in the external magnetic field. and the result of fitting the experimental data according to Eq. Data was taken using a Bruker ER200 EPR/ENDOR spectrometer.
We also have a new state of the art home spectrometer operating at Ka-band frequencies (35 GHz). The methods of extraction of quantitative data on molecular mobility from EPR. In addition we have another Bruker E-580X that can operate in CW and Pulse modes at X-band (9.5 GHz) frequencies. This spectrometer can operate at CW and in Pulse modes at X-band (9.5 GHz) as well as W-band (94 GHz). Our lab is equipped with Bruker E-680X/W Pulse-EPR Spectrometer System with cryostats for operation down to 2K. Our EPR lab offers the most updated EPR spectrometers for steady state and time resolved EPR measurements including CW EPR/ENDOR, Time-resolved CW EPR, Pulsed EPR experiments such as field-sweep echo-detected (FS-ED), ESEEM, ENDOR, ELDOR and coherent ELDOR.