TY - JOUR
T1 - The Virtual NMR Spectrometer
T2 - A Computer Program for Efficient Simulation of NMR Experiments Involving Pulsed Field Gradients
AU - Nicholas, Peter
AU - Fushman, David
AU - Ruchinsky, Vladislav
AU - Cowburn, David
N1 - Funding Information:
This work was supported by NIH Grant GM-47021. D.F. acknowledges grant support (SG-00-005) from the Camille and Henry Dreyfus Foundation.
PY - 2000/8
Y1 - 2000/8
N2 - This paper presents a software program, the Virtual NMR Spectrometer, for computer simulation of multichannel, multidimensional NMR experiments on user-defined spin systems. The program is capable of reproducing most features of the modern NMR experiment, including homo- and heteronuclear pulse sequences, phase cycling, pulsed field gradients, and shaped pulses. Two different approaches are implemented to simulate the effect of pulsed field gradients on coherence selection, an explicit calculation of all coherence transfer pathways, and an effective approximate method using integration over multiple positions in the sample. The applications of the Virtual NMR Spectrometer are illustrated using homonuclear COSY and DQF COSY experiments with gradient selection, heteronuclear HSQC, and TROSY. The program uses an intuitive graphical user interface, which resembles the appearance and operation of a real spectrometer. A translator is used to allow the user to design pulse sequences with the same programming language used in the actual experiment on a real spectrometer. The Virtual NMR Spectrometer is designed as a useful tool for developing new NMR experiments and for tuning and adjusting the experimental setup for existing ones prior to running costly NMR experiments, in order to reduce the setup tune on a real spectrometer. It will also be a useful aid for learning the general principles of magnetic resonance and contemporary innovations in NMR pulse sequence design,
AB - This paper presents a software program, the Virtual NMR Spectrometer, for computer simulation of multichannel, multidimensional NMR experiments on user-defined spin systems. The program is capable of reproducing most features of the modern NMR experiment, including homo- and heteronuclear pulse sequences, phase cycling, pulsed field gradients, and shaped pulses. Two different approaches are implemented to simulate the effect of pulsed field gradients on coherence selection, an explicit calculation of all coherence transfer pathways, and an effective approximate method using integration over multiple positions in the sample. The applications of the Virtual NMR Spectrometer are illustrated using homonuclear COSY and DQF COSY experiments with gradient selection, heteronuclear HSQC, and TROSY. The program uses an intuitive graphical user interface, which resembles the appearance and operation of a real spectrometer. A translator is used to allow the user to design pulse sequences with the same programming language used in the actual experiment on a real spectrometer. The Virtual NMR Spectrometer is designed as a useful tool for developing new NMR experiments and for tuning and adjusting the experimental setup for existing ones prior to running costly NMR experiments, in order to reduce the setup tune on a real spectrometer. It will also be a useful aid for learning the general principles of magnetic resonance and contemporary innovations in NMR pulse sequence design,
KW - Computer simulation
KW - NMR
KW - Pulsed field gradients
KW - Virtual NMR spectrometer
UR - http://www.scopus.com/inward/record.url?scp=0034242840&partnerID=8YFLogxK
U2 - 10.1006/jmre.2000.2108
DO - 10.1006/jmre.2000.2108
M3 - Article
C2 - 10910695
AN - SCOPUS:0034242840
SN - 1090-7807
VL - 145
SP - 262
EP - 275
JO - Journal of Magnetic Resonance
JF - Journal of Magnetic Resonance
IS - 2
ER -