• Abberior Instruments and Super Resolution Microscopy at Lastek
    Abberior Instruments and Super Resolution Microscopy at Lastek

    Abberior Instruments has partnered with Lastek in Australia and New Zealand to offer the most complete experience for super resolution microscopy. Read more here.

  • Raptor Photonics OWL 640 SWIR camera
    Raptor Photonics OWL 640 SWIR camera

    Raptor Photonics OWL 640 is the best performing SWIR camera in the world. Demonstration system now available. Please enquire for details. Read more.

  • Toptica: DL pro with Digital Laser Controller DLC pro
    Toptica: DL pro with Digital Laser Controller DLC pro

    The new digital laser controller for TOPTICA’s tunable diode laser DL pro sets new benchmarks with regards to low noise and low drift levels.

    Demonstration system now available. Please enquire for details. Read more...

  • High Finesse Laser Spectrum Analyzer Spectrometer for Broadband Sources
    High Finesse Laser Spectrum Analyzer Spectrometer for Broadband Sources

    Analyses multi-line or broadband spectra of cw and pulsed lasers, gas discharge lamps, and more.  Lastek currently have a demonstration system available for evaluation. Read more...

  • Alio Industries: True Nano™ Precision Motion Systems
    Alio Industries: True Nano™ Precision Motion Systems

    ALIO Designs and Manufacturers Proprietary Robotic Devices and Tools that Enable Precise Nano-Scale Movements for Manufacturing and Research & Development

    Read more...

German quantum initiative QUTEGA starts with optical single ion clock

TOPTICA MDL pro 400x650

The German Federal Ministry of Education and Research (BMBF) has initiated a strategy process within the field of quantum technologies that stressed the importance of this field for economy and science in Germany. This assessment is in accordance with European and international evaluation. In order to implement first results of the strategy process, the BMBF has selected three pilot projects addressing important developments in quantum technologies. The first pilot project “optIclock - optical single ion clock” has started in May 2017.

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Laser Quantum webinar: Few-cycle optical parametric amplifiers - the next generation of high power amplifier systems

Laser Quantum Venteon Ultra

Above: Laser Quantum's Venteon Ultra: Few cycle short pulse femtosecond laser system

This webinar from Laser Quantum looks into the pioneering field of few-cycle OPCPA systems, an important enabling technology for applications requiring high photon flux. The webinar will cover the technology and physics of modern OPCPA systems, the scalability in terms of pulse energy and repetition rate, and a focus on few-cycle pulse generation with stable carrier-envelope phase. This webinar looks into the pioneering field of few-cycle OPCPA systems, an important enabling technology for applications requiring high photon flux. The webinar will cover the technology and physics of modern OPCPA systems, the scalability in terms of pulse energy and repetition rate, and a focus on few-cycle pulse generation with stable carrier-envelope phase. The webinar will take place on Tuesday June 20 2017, at 4:00pm CEST (3:00 BST, or midnight Australian Eastern Standard Time).

Register and log-in here.

The new generation of Gentec-EO Integra Detectors: Now with RS-232 and External Trigger Options

1 Integra with PC

Gentec Electro-Optics, Inc. unveils its new generation of INTEGRA Detectors.

The already popular series of Detectors with Integrated Monitor now features More Connector Options and a completely Redesigned Format..

  • Choice of USB or RS-232 Output on all the models
  • External Trigger Output available in option on the energy detectors
  • Redesigned format with Mounting Hole to secure it on your optical table

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Nanonics SpectraView MV2500: A Breakthrough in Combining Complementary Scattering Techniques with Ultrasensitive AFM and SPM for NanoChemical Analysis

flyerAPS V4 banner onpage

Nanonics announce the release of the SpectraView MV2500, a breakthrough system combining complementary scattering techniques with Ultrasensitive AFM and SPM for Nano-Chemical Analysis.

Featuring:

  • Colocalized IR, Raman, THz and AFM
  • Singular protocols for excitation in the IR with Raman and fluorescence detection in the visible
  • Image with photon force with pN force sensitivity
  • Patented cantilevered completely transparent probes
  • Highly localized scattering at the tip
  • Versatile configurations with advanced SPM modes of operation: Kelvin Probe chemical potential, electrical, thermal and photon force detection
  • Online variable magnetic fields
  • Applications in plasmonics of 2D materials, liquids, biology etc.

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Toptica Product Focus: Continuously Tunable Lasers

TOPTICA Tuesday 20170530 400x650 CTL

Wide mode-hop-free tuning is important for many exciting applications: for example resonant excitation of small structures like quantum dots and micro-cavities as well as molecular spectroscopy or components testing. TOPTICA is specialized in tunable diode lasers with excellent precision, reliability and ease-of-use.

For example, TOPTICA’s CTL – continuously tunable laser – enables mode-hop-free tuning of up to 110 nm at several central wavelengths. Wide scans can be performed with highest resolution and narrow linewidth, and CTL features high absolute and relative wavelength accuracy as well as high power.

In combination with its fully digital controller DLC pro, the CTL laser is easy to use and operate via touch-screen and knobs as well as via remote PC GUI and command language. The low noise and drift levels of the controller make the CTL series even more stable and lowest-noise.

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Raptor releases new OWL 320 High Speed VIS-SWIR camera

OWL 320 HS VIS SWIR

Raptor Photonics has added another member to its growing family of InGaAs based cameras. The OWL 320 High Speed VIS-SWIR features a state of the art high sensitivity InGaAs FPA sensor with a resolution of 320 x 256, and a pixel pitch of 30µm x 30µm. This camera now offers VIS-SWIR sensitivity from 400nm to 1700nm. This will be in addition to the SWIR version of the camera, running from 900nm to 1700nm.

The OWL 320 High-Speed VIS-SWIR series offers unsurpassed speeds of 346 Hz for ultrafast applications with high sensitivity response allowing exposure time from 500ns to 5 seconds. Further details available here.

New Becker+Hickl ultra-fast detectors improve NADH FLIM

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Image: NADH Lifetime image, amplitude-weighted lifetime of double-exponential fit

NADH FLIM is based on the separation of the fluorescence decay components of the bound and the unbound fraction of NAD(P)H. The amplitudes and the decay times of the components are used to derive information on the metabolic state of the cells or the tissue. The separation of the decay components and the accuracy of the amplitudes and lifetimes improves substantially by using the ultra-fast HPM-100-06 and HPM-100-07 hybrid detectors. The IRF width in combination with the SPC-150N and SPC-150NX TCSPC modules is less than 20 ps. An IRF this fast does not interfere with the fluorescence decay. The usual deconvolution process in the data analysis virtually becomes a simple curve fitting, and the decay parameters are obtained at unprecendented accuracy.

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nanoplus DFB interband cascade laser facilitates new TDLAS applications in mid-infrared

 csm nanoplus TO66 d79118cdcf

nanoplus offers a DFB interband cascade laser (ICL) at any target wavelength in the mid-infrared (MIR) between 3 μm and 6 μm. The device operates in continuous wave (cw) mode around room temperature. Specifications and behavior are very comparable to a nanoplus laser at lower wavelengths. When you set up an ICL-based analyzer, you can, hence, transfer the engineering knowledge you have gained from building short-wavelength gas sensors.

The nanoplus DFB ICL opens tunable laser absorption spectroscopy (TLAS) for novel MIR applications in industrial gas sensing.

In the 3 μm to 6 μm wavelength window, now covered by interband cascade lasers, many industrially relevant trace gases have their strongest absorption bands. They show absorption strengths that are several orders of magnitude higher than those in other infrared (IR) areas. This concerns prevalent molecules such as carbon dioxide (CO2), nitric oxide (NO) or water (H2O). Most hydrocarbons, e. g. methane, equally locate their topmost absorbing features at these ICL wavelengths.

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A novel 1p-SLIPI approach simplifies stray-light free instantaneous imaging in dense sprays

 1 p SLIPI

Clean-up of a single-shot image from a hollow cone spray. The conventional sheet image shows a large amount of stray light and blurred structures, while the 1p-SLIPI image reveals droplets and rejects stray light effectively. (courtesy of E. Berrocal, E. Kristensson, Lund University)

LaVision presents the latest innovation for stray light suppression in sprays and two-phase flows

Structured Laser Illumination Planar Imaging (SLIPI) is an established technique in planar laser imaging to remove imaging artifacts arising from higher order scattering in 2-phase fluids, such as sprays. Developed with their cooperation partners from Lund University, LaVision now provides a remarkable simplification of SLIPI with the new single pulse SLIPI approach.

Instantaneous 1p-SLIPI This novel technique reveals fully time resolved spray images from single-shot recordings. Single pulse SLIPI (1p-SLIPI) is the simplest way of rejecting stray-light in dense media.The instantaneous double pulse 2p-SLIPI and the phase-scanning and time-averaging 3p-SLIPI offer solutions to customers with higher demands on spatial resolution or for more complex spray imaging techniques like LIF/Mie.

The SLIPI optics is designed to start with the most simple 1p-SLIPI approach and can be upgraded with rising demands. The SLIPI base module covers all requirements for 1p-SLIPI. Two add-on modules for the SLIPI optics for 2p- and 3p-SLIPI allow to upgrade to one or both of the more advanced techniques. Read more about SLIPI here.

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