A single lightweight package houses the electronics and laser cavity, which facilitates fast, straightforward integration into compact tools and desktop instruments. For optimal process control, the E-Track active pulse-energy control features a closed-loop algorithm that enables dynamic pulse-energy adjustment with various gating operations. User-adjustable repetition rates range from single shot to 200 kHz. The Explorer One HP HE 355-200 UV laser offers pulse energies of greater than 200 µJ, pulse widths of less than 15 ns, and average power of greater than 4 W. Toptica Photonics Inc, 5847 County Rd 41, Farmington, NY 14425, The latest entry in the Spectra-Physics Explorer One HP line of ultracompact actively Q-switched lasers from MKS Instruments delivers 3.5 times as much pulse energy as existing models. Fully automated, push-button optimization of the optomechanics and of the output power stabilization allows for easy, hands-off, remote operation via the included graphical user interface or via users’ control software. The all‑semiconductor TopWave 405 draws less than 100 W and does not require water cooling, which reduces the cost of ownership. The higher coherence length-greater than 100 m-is well-suited for stable pattern generation in interference lithography or holography. Beam diameter and M 2, which is typically 1.15, are designed to match the established gas laser parameters, which allows for easy integration without significant changes to the optical system. The TopWave 405 provides 1 W output power at 405 nm and excellent beam quality. With its new TopWave 405 model, Toptica presents a cost-efficient alternative for the bulky, power-hungry krypton-ion-gas lasers commonly used in lithographic and holographic applications. Olympus Corporation of the Americas, 3500 Corporate Pkwy, Center Valley, PA 18034-0610, During analysis, the software’s trend visualization tools help users spot problems. Once users place a sample on the stage and press the start button, the microscope makes all necessary setting adjustments and acquires the data. The microscope scans samples according to a software-generated customized experiment plan, which helps prevent users from missing data or having to redo work. The Smart Experiment Manager helps users handle the planning, acquisition, and analysis phases of their experiments. In three simple steps, the Smart Lens Advisor assists in the selection of the correct objective lens to measure surface roughness. Bruker Nano Surfaces, 3400 E Britannia Dr, Ste 150, Tucson, AZ 85706, According to Olympus, its LEXT OLS5100 laser microscope delivers the high levels of accuracy and precision required for submicron 3D observation and surface roughness measurement, and its smart features accelerate and optimize experiment workflows for materials science applications. A proprietary emission path allows the system to achieve low background fluorescence, even in thick samples. Users can obtain intrinsic 3D superresolution data and achieve 20 nm localization precision in the xy-direction, 50 nm in the z-direction for organic dyes, and even finer with DNA PAINT probes. The Vutara VXL offers a large field of view, high-throughput data acquisition, and multimodal capabilities. When combined with Bruker’s microscope fluidics unit, it enables multiplexed imaging for targeted proteomics research. Designed to serve as a biological microscopy workstation for research on DNA, RNA, and proteins, the Vutara VXL also supports advanced biological and biomedical research imaging. Bruker’s Vutara VXL superresolution fluorescence microscope for nanoscale biological imaging incorporates the company’s single-molecule localization technology in a streamlined, cost-effective system.
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