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Light coupling input/outputs
- Fibre-optics, X-Y adjustable couplers and F/# matcher
- Sample chamber
- Motorised & manual slits
- Filter wheels
Resources
Part of the Oxford Instruments Group
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Part of the Oxford Instruments Group
Andor’s range of highly versatile spectrographs provide high resolution, high throughput, high modularity, ease of use from the UV to the NIR and SWIR, from macro- to nano-scale, with fluxes down to single photon and time-resolution down to nanosecond. Andor’s spectrograph technology is based on Czerny-Turner or Echelle optical designs.
Spectrograph features include:
Andor’s spectrograph family is based on Czerny-Turner or Echelle optical designs, and offers a range of highly configurable or highly specialised platforms to best suit your experimental requirements.
Select from the options below to find the Spectrograph platform that best meets your needs.
Spectral Resolution
Throughput
Simultaneous bandpass
Raman is a molecular spectroscopy technique that can provides chemical and structural fingerprint information for a wide range of samples, including for example nanomaterials, polymers, powders, liquids or cells/tissues. Key Raman techniques include:
Further Reading
Technical note: Introduction to Raman Spectroscopy
App Note: Diagnosis of skin tumors during micrographic surgery
App Note: Probing Molecular Structure with Raman Spectroscopy
Luminescence spectroscopy is used for a large variety of applications including for example the study of metal complexes, organic LEDs (OLEDs), quantum dots, cell dynamics, stand-off detection of chemical compounds (e.g. explosives) or scintillators properties measurement. Key techniques include:
Further Reading
App Note: Determination of Fluorescence Lifetimes using TRLFS
App Note: Characterization of Single Quantum Wires
App Note: Magneto-Photoluminence in Si Nanocrystals
Ultraviolet Visible Near-Infra red (UV-Vis-NIR) spectroscopy is useful to characterise the absorption, transmission, and reflectivity of a variety of materials such as pigments, biological, coatings, windows, filters, or analyse the dynamics of chemical reactions. Variations of these spectroscopy techniques include:
Further Reading
App Note: Spectral Response of Glucose
Optical Emission Spectroscopy (OES) is a fundamental, non-invasive diagnostic technique for a wide range of plasma, and can provide information such as composition and species temperature and energy distribution.
Laser-induced breakdown spectroscopy (LIBS) is used to determine the elemental composition of various solids, liquids and gases. A high power laser pulse is focused on to a sample to create a plasma. Emission from the atoms and ions in the plasma is collected and analysed by a spectrograph and gated detector to determine the elemental composition or the elemental concentrations in the sample.
Further Reading
Case Study: Automated 2D elemental mapping by LIBS
Case Study: Stand-off LIBS
Webinar: Basic Principles of LIBS
Micro-spectroscopy covers a very wide range of spectroscopy modalities with the common character that the spectroscopic measurement is made on the microscopic scale. Andor spectroscopy systems are routinely used for Raman-based techniques including:
Further Reading
Tech Note: Modular Solutions for Micro-Spectroscopy
App Note: Micro-Spectroscopy as a Diagnostic Aid to Skin Cancers
Non-linear (NL) spectroscopy encompasses a number of optical techniques that can be used to study for example interfacial and surface processes, ultrafast dynamic processes (pump-probe technique), light transport or assist in the understanding of nanoparticles/nanostructures unique optical properties. Key techniques include:
Further Reading
App Note: Spectral Characterization of Quantum Light
App Note: Nearfield Spectroscopy of a ZnO Thin Film
Optical spectroscopy can provide analytical information on materials from the micro to the nano-scale, through a number of techniques with a large range of sensitivity, resolution and flexibility requirements. Examples include:
Further Reading
App Note: Chemical Analysis of Nanostructures by TERS
App Note: Nearfield Spectroscopy of a ZnO Thin Film
Optical spectroscopy can be used to non-invasively study the changes in the composition of chemical(s) or material(s).
Chemical reaction products or transient behaviours can be probed by Andor Spectroscopy systems through a variety of techniques based on Raman, transient absorption / pump-probe or fluorescence.
Further Reading
App Note: Quantitative Monitoring of Biphasic Reactions
App Note: Reaction Monitoring using UV-Resonance Raman
App Note: Reaction monitoring using SWIR Raman Spectroscopy
Optical spectroscopy can provide very specific analytical information in a non-invasive matter for a range of bio-samples, often as a complement to microscopy imaging (micro-spectroscopy) or visual inspection.
Field of applications include for example cancer cell in vivo and ex vivo screening and cancer diagnostics, non-invasive monitoring of patient bio-parameters or cell sorting.
Further Reading
App Note: Identification of Lung Cancers
App Note: Diagnosis of skin tumors during micrographic surgery
App Note: Optical Spectroscopy for non-invasive disease diagnostics
Plasmas can be artificially produced by different means (e.g. laser ablation, coupling of capacitive / inductive power source to ionised gas). The understanding of their properties and dynamics is relevant to a number fields such as fusion, thin films deposition, micro-electronics, material characterization, display systems, surface treatment, fundamental physics, environmental & health.
Gated detectors can be used to determine optical parameters from which fundamental plasma properties can be derived. Accurate nanosecond-scale gating of image intensifier-based detectors can be used to sample plasma dynamics, or to isolate the useful plasma information generated by pulsed lasers.
Further Reading
App Note: PLIF as a Plasma Diagnostic
App Note: Broadband Cavity-enhanced Absorption Spectroscopy
App Note: Thomson Scattering
Adaptable to large range of setups, high configurability, in-field upgradeable
High sensitivity, high speed, high dynamic range detection from the UV to the NIR and SWIR.
High sensitivity, deep-TE cooled platform for UV-VIS-NIR-SWIR & Raman spectroscopy.
High sensitivity, deep-TE cooled platform that is suitable for SWIR spectroscopy.
High speed and high sensitivity platform for fast transient studies or chemical mapping.
Ns gated platform for highest time-resolution and accuracy, ideal for plasma dynamics & LIBS.
Ultrafast and high dynamic range platform for dynamic phenomena by fluorescence or absorption.
Ultrafast and high dynamic range platform for dynamic phenomena by fluorescence or absorption.
Solis Acquisition Software - A 32-bit and fully 64-bit enabled application for Windows (8, 8.1 and 10) offering rich functionality for data acquisition and processing, as well as Andor cameras, spectrograph and motorized accessories simultaneous control.
Find out moreSoftware Development Kit - A SDK that allows you to control the Andor range of spectrographs from your own application. Compatible as 32-bit and 64-bit libraries for Windows (8, 8.1 and 10). Compatible with C/C++, C#, VB.NET and LabVIEW for Windows/Linux.
Find out moreµ-Manager for Micro-spectroscopy - Integrated modular micro-spectroscopy setup control popular with the Life Science community. All market leading motorized microscope and accessories seamlessly controlled and maintained. Integrated sequence builder & macro interfaces for complex experiments building.
Find out more Download plug-in
