WCZ-3 Digital Proton Magnetometer



Measurement of the precession of hydrogen protons in a magnetic field is the basic idea behind the WCZ-3 proton magnetometer. Before being made to polarize by the instrument, the hydrogen protons in the liquids that make up the sensor are arranged erratically. The proton will spin forward in the presence of a polarization signal. Proton precession will progressively vanish following the loss of the polarization signal under the influence of the ambient magnetic field. By measuring the frequency of the signal transmitter impacted by the precession, the strength of the external magnetic field can be determined. Continuous measurement will be possible if this action is cycled continuously.The WCZ-3 proton magnetometer is a new generation proton magnetometer that was created using cutting-edge technology and advanced magnetometers from other countries in light of the current state of affairs in our nation. It can measure magnetic fields with an accuracy of 0.5nT and a precision of 0.05nT.



Its scope of application is as follows:

1. Based on the valuable minerals in the ore, one mineral exploration alternatively, exhibit symbiotic properties with magnetic minerals for direct prospecting; There are several magnetic geologic formations in the cause or space, according to the ore body. Guan's traits include indirect prospecting. Including copper mines, iron ore, lead-zinc mines, etc. assist in mining area exploration to learn about the ore body's depth, location, and connections. Continue, analyze the size and shape of the ore body, and calculate the deposit's size.

2. Oil-related geology, exploration, and research issues with the earth's structure and other issues.

3. To carry out geological mapping, coordinate with a basic geological survey.

4. The discovery of structures connected to magnetism that are magnetic.

5. Location of the fault section.

6. Investigating the environment, archaeology, and hydrology

Measurement range 

Allowed gradientvertical gradient≤2000nT/m
Horizontal gradient≤1500nT/m
LCD lattice192*64