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Introduction
Short description of the programs.
From: Jeremy Craven (c.j.craven@sheffield.ac.uk)
Date: 6 Jan 2005
| Name | Type | Purpose |
| aqcalc | sh | Calculates the acquisition time given spectral width and number of complex pairs. Allows spectral width to be specified in ppm or hz. |
| b1calc | sh | Given length of a 90 degree pulse, calculates B1. |
| b1pulcalc | sh | Calculates length of 90 degree pulse that corresponds to a given B1 |
| dbcalc | sh | Given a known pulse length at a given power level (in dB), calculates the power level required to obtain a different specified pulse length. |
| plot_response.py | python |
This command accepts the output of pulse_response.py (via a pipe) and plots it. |
| pulcalc | sh | Similar to dbcalc. Given a known pulse length at a given power level (in dB), calculates the pulse length at a different specified power level. |
| pulse_response.py |
python | This command reads a bruker format shape file and calculates the frequency domain response |
| relvals | sh | This script calculates 15N T1, T2 and NOE for simple Lipari-Szabo model, given slow and fast correslation times, s2, and field strength. |
Ph.D. in protein NMR spectroscopy
CCPN General Meeting