Ultra-high vacuum system for scanning probe microscopy (SPM) device
●Features This device is a surface analysis microscope that scans a probe over the surface of a material, allowing for the acquisition of surface shapes at the atomic level in real space. By applying a negative voltage to the probe and bringing it close to the surface of the sample being observed, it can measure the tunneling current flowing in the space between the probe and the sample surface, enabling observation of the sample surface morphology at the atomic level using a Scanning Tunneling Microscope (STM). Additionally, it can investigate the morphology of the sample surface by detecting the forces acting between the atoms at the tip of the probe and the atoms on the sample surface, using an Atomic Force Microscope (AFM). The main configuration of the device consists of 3 to 4 chambers in ultra-high to extreme high vacuum regions, including an analysis chamber, a preparation chamber, a sample fabrication chamber, and a sample introduction chamber.
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●Features This device is a surface analysis microscope that scans a probe over the surface of a material, allowing for the acquisition of surface shapes at the atomic level in real space. By applying a negative voltage to the probe and bringing it close to the surface of the sample being observed, it can measure the tunneling current flowing in the space between the probe and the sample surface, enabling the observation of the sample surface morphology at the atomic level using a Scanning Tunneling Microscope (STM). Additionally, it can investigate the morphology of the sample surface by detecting the forces acting between the atoms at the tip of the probe and the atoms on the sample surface using an Atomic Force Microscope (AFM). The main configuration of the device consists of 3 to 4 chambers in ultra-high vacuum to extreme high vacuum regions, including an analysis chamber, a preparation chamber, a sample fabrication chamber, and a sample introduction chamber.
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The history of Kitano Seiki is also a trajectory of continuous contribution to cutting-edge research fields through the provision of precision instruments for research and development. In November 1958, we were established as a company specializing in the design, manufacturing, and sales of precision instruments. Since then, we have developed and manufactured experimental equipment aimed at research institutes in universities and government agencies, as well as basic research laboratories in private companies, earning high praise for our excellent quality and reliability. In particular, in recent years, we have been at the forefront of ultra-high vacuum and ultra-low temperature technologies, which are essential in industrial fields such as new materials, nanotechnology, flat panel displays, high-temperature superconductivity, solar cells, nuclear power, and space development. We have accumulated abundant technology and know-how in creating experimental environments and have linked this to the development and provision of equipment that condenses advanced performance and functionality. At Kitano Seiki, we always work closely with researchers, our users, to design and develop equipment that accurately supports research and development objectives. With a consistent system from parts manufacturing to various processing, assembly, inspection and testing, equipment setup, and after-sales support, we provide high-quality products and a conducive experimental environment for quality research and development.