Seamless Integration:With MPI’s extensive instrument library, the STARGAZER test system can easily interface with mainstream third-party measurement instruments to meet your unique testing needs. Integrated real-time system monitoring and reporting enable a smooth and fully unattended test process. #High performance probe software#Production Management: Manage lab/production data via the intuitive and easy-to-use software interface. Flexibility: With support for multiple test recipes, the user can flexibly select or modify the workflow or edit parameters according to the product and tests being performed. The STARGAZER Photonics Test System features a user-centric design that can be flexibly configured and programmed according to your unique test requirements. MPI SIRIUS prober control software provides comprehensive control functions from basic wafer alignment, mapping, probe mark inspection to the deployment of MPI’s advanced Needle Alignment Mechanism (NAM) technology. Maximum support for multiple probing schemes and optical Input/output orientations: - Wafer top side electrical probe + bottom side optical measurement - Simultaneous probing of wafer top/bottom surfaces Multiple contact mechanism options include: VPC, Probe Card Holder (PCH), Wedge Probe Card, and MPI F1 Single Probe Module.įlexible structure for mounting multiple optics system for LIV, Near Field, and Far Field testing. Seamless Integration: With MPI’s extensive instrument library, the MPI test system can easily interface with mainstream third-party measurement instruments to meet your unique testing needs. The MPI Photonics Test System features a user-centric design that can be flexibly configured and programmed according to your unique test requirements. MPI prober control software provides comprehensive control functions from basic wafer alignment, mapping, probe mark inspection to the deployment of MPI’s advanced Needle Alignment Mechanism (NAM) technology. Selectable contact mechanism options include: Probe Card Holder (PCH), Wedge Probe Card and MPI F1 Single Probe Module achieving high precision measurement. Multiple optics / detector choices to meet your exact needs to test LIV, Near Field, and Far Field optical characteristics. High performance loader system easily handles various device types such as thin/warped wafer, normal wafer, substrate, Packaged or other devices. Oxyphor 2P opens up new possibilities for studies of tissue metabolic states using 2PLM in a wide range of biomedical research areas.Extreme temperature test capability (-40˚ to +200˚C). As proof of principle, we monitored oxygen dynamics for days following micro-stroke induced by occlusion of a single capillary in the mouse brain. Oxyphor 2P allows longitudinal oxygen measurements without having to inject the probe directly into the imaged region. Here, we report a new sensor, Oxyphor 2P, that enables oxygen microscopy twice as deep (up to 600 μm below the tissue surface) and with ∼60 times higher speed than previously possible. Two-photon phosphorescence lifetime microscopy (2PLM) has been developed to perform measurements of oxygen in vivo with micron-scale resolution in 3D however, the method’s potential has not yet been fully realized due to the limitations of current phosphorescent probe technology. Quantitative imaging of oxygen distributions in tissue can provide invaluable information about metabolism in normal and diseased states. Oxyphor 2P: A High-Performance Probe for Deep-Tissue Longitudinal Oxygen Imaging. Esipova, Tatiana V Barrett, Matthew J P Erlebach, Eva Masunov, Artëm E Weber, Bruno Vinogradov, Sergei A (2019).
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