Request InfoBruker Nano GmbH, JPK BioAFMBerlin-based JPK Instruments, manufacturer of nanoanalytic instrumentation for research in life sciences and soft matter, announced the opening of their first offices in Japan, as well as the appointment of Nobuhiro Saito as country manager. The offices are located in the Koto-ku district of Tokyo. Saito previously worked with a device manufacturer where he developed skills in instrumentation as a sales engineer for the Toyo Corp., specializing in AFM. He graduated from the Tokyo University of Science in 1997 with a degree from the Department of Electrical Engineering.See full productRelated content from Photonics MediaPRODUCTSPromoted Content March 2023 IssueMad City Labs GmbH - Tools for the NanoscaleMad City Labs provides tools for the nanoscale for applications in photonics, microscopy, and physics. Our portfolio includes closed loop piezo nanopositioners, micropositioners, atomic force...Promoted Content June 2023 IssueNanopositioning for High-Res MicroscopyPI's new Fast Focus Stages and Multi-Axis Piezo Flexure Scanners for Microscopy are designed to improve the performance of high-resolution microscopy. Choice of piezo and voice coil motors....Photonics Showcase November 2023 IssueQS-PLL™ AFM ControllerThe QS-PLL™ AFM controller is designed for use with AFM resonant probes. The high sensitivity of resonant probes makes it ideal for applications such as scanning NV magnetometry and quantum...Promoted Content September 2023 IssueTools for the NanoscaleMad City Labs provides tools for the nanoscale for applications in photonics, microscopy and physics applications. 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Each finalist will receive an...BioPhotonics Mar/Apr 2023 IssueSPIE Names Winners of 15th Annual Prism AwardsSPIE, the international society for optics and photonics, and media partner Photonics Media recognized the top innovators in optics and photonics products at the 2023 Prism Awards ceremony held at...PHOTONICS HANDBOOK ARTICLESPhotonics HandbookOptical Delay Lines: Key to Time-Resolved MeasurementsOne of the most critical elements of any time-resolved spectroscopy and dynamics experiment is the optical delay line. 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