Recently, Ames Photonics have investigated the feasibility of using silicon photodiodes, like the Oculus USB photodetector, for detecting femtosecond laser pulse energy output. Silicon photodiodes offer potential advantages for the detection of ultrashort laser pulses. However, until now, no reliable information about saturation energy level, practical energy density and linearity of photodiodes under ultra-short laser pulse exposure has been available in the literature. The results show that Si photodiode have several advantages compared to other commonly used photosensors, including: - Excellent linearity of output current as a function of incident light
- Very high sensitivity-can typically resolve pJ levels
- Spectral response from 190 nm to 1100 nm (Si), longer wavelengths with other semiconductor detectors
The complete report is available for download here.
The Ames Photonics S-cube is a versatile, low-cost, imaging spectrometer which offers a level of performance flexibility previously available only in much more expensive systems. It is intended to fill a gap in the market between entry-level spectrometers with limited capability to adjust key parameters, and systems providing flexibility but at significant cost. The S-cube offers a middle way: a reasonably priced spectrometer with excellent performance and wide versatility in a compact, modular package. Together with Ames Photonics range of LARRY and GARRY linear array detectors and other components, the S-cube provides the spectroscopist with a highly flexible modular platform, making it an ideal choice for every spectroscopy laboratory.Based on a Folded Czerny-Turner layout, the system has been engineered from the ground up with the goal of allowing for quick and convenient interchange of components. Diffraction gratings, input slits and array detectors can all be replaced, allowing the S-cube to be easily and rapidly reconfigured for a very wide range of spectral measurements. Wavelength recalibration of the system after such configuration changes is achieved via a semi-automated routine employing onboard Hg/Ar and tungsten spectral calibration lamps. The S-Cube is suitable for general spectroscopy, but it has been specifically optimised with laser spectroscopy in mind. High F/# and low coma ensure high resolution and low distortion of spectral lines. Further performance flexibility is provided by the ability to vary astigmatism across the wavelength spectrum. Applications: - Femtosecond laser spectroscopy (pump probe, CARS, photon echo
- Versatile, modular research spectrometer for UV-VIS-NIR
- Excellent platform for teaching spectroscopy and spectral calibration
- Absorption and reflection measurements in VIS-NIR using onboard tungsten lamp coupled to optical fibre
- Measuring emission spectra
For further details of features and specifications, please read on below. Contact us for more information.
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Oculus is the latin word for "eye", and in classical times, referred to the round opening at the top of the roof of the Pantheon and other buildings. Oculus is also the name for Ames Photonics innovative new USB detector system, released commercially in 2009. This convenient, plug-n-play laboratory essential is proving to be a very popular tool in a wide range of applications. Whilst we had anticipated some of these, we have also been surprised and delighted by the range of uses our customers are finding for this versatile instrument. For example, at Swinburne University, in Melbourne, Australia, researchers have used the Oculus in conjunction with other Ames Photonics tools to detect and measure output from a multibeam ultrafast laser spectroscopy experiment. Oculus provides the means to enable correlated single-pulse measurements, providing an efficient, cost-effective solution to this problem. Read their report here. This creative application of the technology behind the Oculus has given us an idea: we want to hear about the most ingenious, inventive and downright unusual applications which our customers can imagine for the Oculus, and so we have decided to launch the Ames Photonics Oculus Challenge. We are inviting our customers to send us, via email, their idea for an application which best exploits the unique capabilities of the Oculus USB photodetector. We have two Oculus systems to be given away, free of charge, which will go to the two submissions which our judges deem to be the most interesting. Terms and conditions below.
Here's a great way to pick up an Oculus USB photodetector for your laboratory absolutely free!
So, please, let us know what you can imagine doing with an Oculus. Explore the different versions available for a range of spectral inputs here. Download the detailed technical brochure here. Let us know how Oculus can make a contribution to your application. We look forward very much to hearing your ideas.
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- Spectral sensitivity: 200 - 1100nm- Temporal resolution: LARRY: 5 milliseconds GARRY 10 microsecondsAmes Photonics LARRY and GARRY series are two families of linear CCD array detectors which offer cost-effective, scientific-grade performance to suit a wide range of spectroscopic applications. They are compatible with virtually all commercial spectrometers, making them ideal for upgrading existing systems or for incorporation into flexible new spectroscopic tools and instruments. Supported by a wide range of accessories, including software packages for data acquisition and analysis, mounting hardware and more, these are ideal detector choices around which to configure a modular solution for your spectroscopic application. The LARRY series (pictured) is ideal for general spectroscopic purposes. The GARRY series (below) is designed primarily for applications requiring synchronization to pulsed sources, or for other time-sensitive measurements. These detectors incorporate on-board gating electronics. All of our scientific-grade detectors are carefully tested and sorted as part of our stringent manufacturing and opimization process. We guarantee that they will exhibit no fringing effects across their full spectral range. All detectors include UV grade fused silica windows and are sensitized with a proprietary coating to extend performance from below 200nm to above 1100nm.
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- High performance detector in an easy-to-use package
- USB2.0 interface: simply plug in and start using
- Complete with flexible, powerful software
Oculus is a versatile USB photodetector system which has been developed for measuring and logging CW and pulsed optical and laser sources in the 200-1700nm range. The detectors incorporate low noise, high gain 16 bit oversampling amplifiers for high sensitivity. Typical saturation signals are a few nJ. The shortest integration time is 20 microseconds, the longest 10 seconds. They also include an external trigger input and internal, programmable delay generator for synchronization to pulsed sources. All operating parameters (integration time, interval between samples, averaging, internal delay and box-car mode operation) are controlled via open-source software. Each detector is supplied with a Software Development Kit containing examples of typical detector acquisition and display programs in Labview, C++, VB and SpectraScript. These examples can be used to make simple measurements. Source code is included, enabling users to extend these programs or write completely new ones to control the detectors and integrate them into larger experiments. For full details including specifications, available models, pricing and ordering information, please click here.
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- Spectral response 800-1700nm
- 256 and 512 element arrays
- 50m x 500m pixels
- TE cooled/temperature stabilized
The IRA Series detection systems incorporate low noise 256 and 512 element InGaAs IR linear Arrays optimized for spectroscopic applications in the 800-1700nm range. They include TE coolers and controllers. The detector heads are air cooled. The detectors are cooled, and temperature stabilized to 5 degrees C to reduce noise and stabilize dark signal. These detectors are well suited for general spectroscopic measurements, and are ideal in most industrial applications for absorption measurements. The IRA series of InGaAs Linear Array Detectors were developed for spectroscopic measurements in 800-1700nm range where many molecular systems have absorption and reflectance features. Although silicon based arrays can have response out to 1100nm, it is often impractical to use silicon detectors beyond 900nm in broadband measurements because of the rapid decrease in response.
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Ames Photonics prides itself on the wide range of proven, reliable software available to support its range of linear detectors. Our software is best-in-class, offering unmatched power and flexibility. All of our detectors come bundled with our SpectraArraySL software for data acquisition and analysis on a single-user system. The software incorporates many proprietary features, including for example, the display of all active spectra on the screen at the same time. LabVIEW drivers are also available. The revolutionary new SpectraNet multiple user/single institution software provides total flexibility of control of any number of detectors. It can be set up on any number of PCs in the one institution, and supports remote control over a LAN. For OEMs who wish to develop their own control and analysis software the OEM developers kit is available. For advanced mathematical analysis of spectral data we offer SpectraSolve, while for custom system control, development (such as the integration of drivers for other instruments with the Ames detector drivers), custom analysis and reporting, we have released SpectraScript.
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A novel spectrometer employing multidimensional femtosecond laser techniques for probing ultrafast dynamics of complex molecular & semiconductor systems. 
Over the past three decades a variety of detection techniques have been used to probe the ultrafast dynamics of complex molecular and semiconductor systems. These techniques include absorption, fluorescence, multiphoton ionisation, photoelectron detection, fourwave mixing, stimulated Raman and photon echo. Very recently there has been much interest in developing multidimensional femtosecond laser techniques similar to those successfully used in NMR to study ultrafast dynamical processes. These include non-linear multiple-pulse coherent techniques which probe correlations between the electric fields generated in the phasematching directions by the different laser pulses and allow detailed spectroscopic information to be obtained in the presence of inhomogeneous broadening. In the image shown above, three laser pulses generate third (or higher) order polarization and result in spatially distributed electric fields generated in various phase-matching directions. From this data, detailed spectroscopic information can be extracted.
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