Physical Property Measurement System Versa Lab
A small refrigeration unit that achieves a minimum temperature of 50K and a maximum applied magnetic field of 3T, known as the Physical Property Measurement System (PPMS). It is a refrigerant-free type, requires no cooling water, weighs approximately 90 kg, and operates on a single-phase 200V power supply.
Inquire About This Product
basic information
A small refrigeration unit that achieves a minimum temperature of 50K and a maximum applied magnetic field of 3T, known as the Physical Property Measurement System (PPMS). It is a refrigerant-free type, does not require cooling water, weighs approximately 90 kg, and is a compact unit operating at a single-phase 200V.
Price information
-
Delivery Time
Applications/Examples of results
Measurement of physical properties of metals, etc. (magnetic characteristics)
Company information
Our company was established as the Japanese subsidiary of a foreign-affiliated manufacturer with a global network spanning over 40 countries. We are steadily expanding our business primarily through the sale of SQUID magnetic property measurement devices and physical property measurement devices, which boast a world-class share in the field of new material research and development. Additionally, we also operate as a trading company for high-tech scientific instruments, importing and selling cutting-edge research equipment from around the world in various fields such as material science, biotechnology, and nanotechnology. The wave of technological innovation is significantly transforming not only industrial sectors but also our daily lives. Among these, the fields of material science, biotechnology, and nanotechnology, which are the pillars of our business, can be described as "core technologies" that provide humanity with infinite possibilities for the future as they lead the way in cutting-edge technology (high-tech). The discovery of high-temperature superconducting materials, applications of laser microfabrication and optical communication, and surface analysis at the nanoscale are already playing important roles in various fields such as new materials, semiconductors, information and communication, medical care, clinical diagnostics, and drug discovery, while also enabling further advancements in technology.