China Wholesale FTIR Sepctrometer Factories – LADP-1 Experimental System of CW NMR – Advanced Model – Labor
China Wholesale FTIR Sepctrometer Factories – LADP-1 Experimental System of CW NMR – Advanced Model – Labor Detail:
Nuclear magnetic resonance (NMR) is a kind of resonance transition phenomenon caused by electromagnetic wave in a constant magnetic field. Since these studies were carried out in 1946, the methods and techniques of nuclear magnetic resonance (NMR) have been rapidly developed and widely used because they can go deep into the substance without destroying the sample, and have the advantages of rapidity, accuracy and high resolution. Nowadays, they have penetrated from physics to chemistry, biology, geology, medical treatment, materials and other disciplines, playing a huge role in scientific research and production .
Description
Optional part:Frequency meter, self prepared part oscilloscope
This experimental system of continuous-wave nuclear magnetic resonance (CW-NMR) consists of a high homogeneity magnet and a main machine unit. A permanent magnet is used to provide a primary magnetic field superimposed by an adjustable electromagnetic field, generated by a pair of coils, to allow a fine adjustment to the total magnetic field and to compensate magnetic field fluctuations caused by temperature variations.
Because only small magnetizing current is needed for relatively low electromagnetic field, the heating problem of the system is minimized. Thus, the system can be operated continuously for several hours. It is an ideal experimental instrument for advanced physics laboratories.
Specifications
|
Description |
Specification |
| Measured nucleus | H and F |
| SNR | > 46 dB (H-nuclei) |
| Oscillator frequency | 17 MHz to 23 MHz, continuously adjustable |
| Area of magnet pole | Diameter: 100 mm; spacing: 20 mm |
| NMR signal amplitude (peak to peak) | > 2 V (H-nuclei); > 200 mV (F-nuclei) |
| Homogeneity of magnetic field | better than 8 ppm |
| Adjustment range of electromagnetic field | 60 Gauss |
| Number of coda waves | > 15 |
Experiment
1. To observe the nuclear magnetic resonance (NMR) phenomenon of hydrogen nuclei in water and compare the influence of paramagnetic ions;
2. To measure the parameters of hydrogen nuclei and fluorine nuclei, such as spin magnetic ratio, Lande g factor, etc.
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By Cara from Latvia - 2018.06.18 19:26
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By Christian from Estonia - 2018.11.04 10:32
