Paragraf’s range of cryogenic graphene Hall sensors – the first and only Hall effect sensors capable of measuring a range of magnetic field strengths up to 30T at temperature extremes down to the mK level – has been expanded to comprise three distinct sensors:
- Cryogenic – High Field: for use in ultra-low cryogenic temperatures and high-field environments. It can measure magnetic fields up 30T, and still operates down at mK temperatures.
- Cryogenic – General: for use in cryogenic environments and can operate down to a temperature of 4K. It is also suitable for measuring strong magnetic fields and has a highly linear response up to 7T.
- Cryogenic – Low Field: for use in extreme cryogenic environments with high sensitivities. It can operate down to mK temperatures while keeping very high sensitivity.
Full specs and datasheets for each of the sensors in this range can be found at Cryogenic sensors – Paragraf.
These sensors don’t only demonstrate graphene’s superior potential for magnetic field sensing. With their tunable sensitivity and thermal robustness, Paragraf’s graphene-based cryo sensors expand the applications for which such sensors are appropriate. Visit our News page to read some of the blogs we have published about cryogenic GHS applications, a sampling of which is linked below:
- Redefining Hall-Effect Sensors with Graphene – Paragraf
- Paragraf and NPL Demonstrate that Paragraf’s Graphene Hall Effect Sensors are ready for High-radiation Applications in Space and Beyond – Paragraf
- Cryogenic Magnetic Field Monitoring – Accurate, Repeatable Measurements using Paragraf Graphene Hall Sensors – Paragraf
- Why the properties of graphene at cryogenic temperatures are making quantum computing increasingly viable – Paragraf
- Graphene Hall sensors deliver high-accuracy operation in fields exceeding 30 Tesla and at cryogenic temperatures – Paragraf
