The MQR is a low resolution, high performance TD-NMR research system designed for applications based on relaxation and/or diffusion measurements. The system includes a high performance digital spectrometer, 23 MHz (0.54 T) permanent magnet, and a choice of interchangeable 10, 18 and 26 mm probes.
- 23 MHz TD-NMR research system
- High performance digital spectrometer
- T1 and T2 diffusion measurements
- Pulsed field gradients and VT probe options
- Data analysis options including 2D data sets
- User programmable with open data environment
Overview
The MQR is a low resolution, high performance TD-NMR research system designed for applications based on relaxation and/or diffusion measurements. The system includes a high performance digital spectrometer, 23 MHz (0.54 T) permanent magnet, and a choice of interchangeable 10, 18 and 26 mm probes.
Options
Additional options include high-strength bipolar pulsed field gradients, T1 rho capability, variable temperature probes, and advanced data analysis including 2D Inverse Laplace transforms. A 20 MHz magnet upgrade is available – more homogeneous with larger sample space making it suitable for imaging.
Features
The MQR is supplied with the Application Developer software package – a fully integrated development environment that allows users to write pulse sequences, set parameters, run and debug sequences, and visualize the results. Shaped RF and shaped gradient pulses can be included, and calculations can be embedded in the pulse sequences. An editable library of common pulse sequences is provided, as well as a basic data analysis software package that includes simple curve fitting and 1D Inverse Laplace transforms. Additional options include high-strength bipolar pulsed field gradients, T1 rho capability, variable temperature probes, and advanced data analysis including 2D Inverse Laplace transforms.
20 MHz operating frequency - Gives high sensitivity and short deadtimes, to allow short T2 components to be detected
Range of probe sizes - Users can choose the optimum probe for their sample size, to maximize SNR and minimize measuring time
Interactive, real-time user interface - Allows users to see results as they happen and make adjustments to optimize parameters
Rack-mounted electronics unit - Allows future upgrades, for example higher power RF or variable temperature probes
Advanced data analysis software - Allows 1D or 2D data inversion for detailed analysis of phase components
Bipolar 1-d pulsed field gradients option - Allows high quality measurements of diffusion and profiles
3-axis pulsed field gradients option - Allows MRI