ProductNews


3i Super Resolution Spinning Disk Confocal with CSU-W1 SoRa Te CSU-W1 SoRa


an easy-to-use Element Pi Now Distributing Vacuum Sciences Plasma Cleaners is super- resolution microscopy


solution using dual Nipkow disks with microlenses on the illuminat- ing and pinhole disks. Resulting raw images have a 1.4× resolution improvement and with deconvolution can achieve twice the resolu- tion of raw spinning disk data. It offers a maximum speed of 200 fps, low photodamage compared to other super-resolution methods, and no limitation on dyes or fluors. Te SoRa is available for new systems and upgrades.


3i Inc. www.intelligent-imaging.com/spinning-disk-confocal


New Hitachi Tabletop Sample Holders and Accessories


Rave Scientific offers a special collection of sample holders and sample stubs compatible with


the Hitachi TM3030-


plus, TM3030, TM3000, and TM1000 table top SEMs. Our collection of holders and stubs


will increase productivity and allow examination of a multitude of samples.


Rave Scientific www.ravescientific.com


Opto Diode Introduces a Large Square Photodiode for Radiation Detection


Te AXUV576C is a large square photodiode with a 576.5 mm2


active area that is specially


designed for electron and radiation detection. Te new device is part of Opto Diode’s family of radiation detectors and offers electron detec- tion to 200 eV. Te square active area is config-


ured on a round 4-pin package, with 2 anode pins and 2 cathode pins for added connection versatility.


Opto Diode https://optodiode.com


KMLabs Installs First Phase of imec’s EUV Quantum Microscope


Based on tabletop high harmonic generation (HHG) of extreme ultraviolet (EUV) laser radia- tion, KMLabs is enabling time-resolved charac- terization of nanoscale complex materials and processes, such as photoresist radiation chem- istry, two-dimensional materials, nanostruc-


tured systems and devices, and emergent quantum materials. Te main light engine of the attolab facility, Pantheon™, consists of the KMLabs RAEA™ Ti:Sapphire amplifier system driving the XUUS™ HHG source to generate light in the range of 13.5–30 nm at multi-kHz repetition rates.


KMLabs www.kmlabs.com


64 doi:10.1017/S1551929520001224


Element Pi has signed with Vacuum Sciences to sell their new PM-100 Plasma Cleaner for electron microscopy. Te Vacuum Sciences system offers a compact and affordable solu- tion for vacuum chamber plasma cleaning. Its EverLight™ plasma ignition provides


dependable removal of organic and hydrocarbon contamination for EM operators. A simple GUI provides for operation and data logging. API controls for direct operation from the SEM soſtware are currently under development with key EM manufacturers.


Element Pi www.elementpi.com


One Giant Leap for Live Cells Te new Incucyte®


SX5 Live-Cell Analysis


System builds on their market-leading design for undisturbed image acquisition and analy- sis to empower a new decade of scientific dis- covery.


Its unique patent-pending optical system allows detection of up


to five fluorescence channels, and the ability to image up to three fluorescence channels at once, in a single live-cell experiment. Te system introduces a new long-wavelength NIR channel and reagents designed specifically to protect cells during long studies.


Sartorius www.essenbioscience.com/en/products/incucyte/incucyte-sx5


Scanning Capacitance Microscopy (SCM) is Used for Nanoelectrical Technique in Semiconductor R&D and Failure Analysis


Te “capacitance” in SCM has been missing from previous generation SCM modules. Con- ventional SCM can only measure differential capacitance (dC/dV) and not the actual capaci- tance signal, which makes it more complicated to interpret. Te new SCM module from Asy-


lum Research changes that with a capacitance channel that is linearly correlated with dopant levels.


Oxford Instruments https://afm.oxinst.com/products


Olympus Introduces Next-Generation Microscopy Image Analysis with Deep Learning


Te Olympus cellSens™ soſtware’s TruAI™ deep-learning technology improves image anal- ysis capabilities from automatic segmentation of complex morphologies without hand labeling to segmentation of cells and organelles using a simple transmitted-light image. Deep-learning


technology offers improved speed and efficiency by improving experi- ment efficiency with label-free nuclei detection, reducing phototoxic- ity during fluorescence imaging to support accurate data acquisition, and saving time by automating cell counting and measuring.


Olympus www.olympus-lifescience.com


www.microscopy-today.com • 2020 September


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