U. of Ottawa NMR Facility Blog Thermal Noise in NMR Data

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[U. of Ottawa NMR Facility Blog] Thermal Noise in NMR Data

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03-08-2013, 08:20 AM

nmrlearner

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Thermal Noise in NMR Data

Thermal Noise in NMR Data

The University of Ottawa has recently been funded for a 600 MHz NMR spectrometer with a cryogenetically cooled probe. Cryoprobes differ from conventional NMR probes in that the rf circuits and preamplifiers are cooled with cold helium gas while the sample is maintained at ambient temperature. The benefit of cryogenically cooled electronics compared to room temperature electronics is that the thermal noise in the system is reduced at cryogenic temperatures while the NMR signal remains constant for the sample at ambient temperature. The signal-to-noise ratio in an NMR spectrum acquired in a cryoprobe is therefore increased dramatically compared to a conventional probe, typically by a factor of 4. This allows for data collection times on the order of 16 times shorter than those using conventional probes as well as lower detection limits. This principle can be crudely demonstrated by replacing the NMR probe with a 50 ? load and collecting "NMR" data on the load at both high and low temperatures. The "NMR spectra" in the figure below were collected (without using an rf pulse) on a 50 ? load outside of the magnet at room temperature (left panel) and in a dewar of liquid nitrogen at 77 K (right panel). The noise collected in the 77 K spectrum is 35% lower than that in the room temperature spectrum demonstrating the lower thermal noise at lower temperatures.

This effect is dramatically increased in a crypoprobe which cools the electronics of both the rf probe circuits and preamplifiers to temperatures much lower than 77 K.

Source: University of Ottawa NMR Facility Blog

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