Raman
Sir Chandrasekhara Venkata Raman co-discoverer of the Raman effect in liquids.
-
Product
Palmtop Raman Spectrometer
PR-1w
-
The PR-1w Palmtop Raman spectrometer is a compact unit that contains a powerful 50 mW 785 nm laser, coupled to a high resolution spectrograph with CMOS detector. Compared to many of the commercially available Raman instruments, the PR-1w is a user-friendly Raman spectrometer that can be used by virtually anyone with minimal training. It can be used in many different environments, and variety of measurement concepts, such as in-line and in-situ measurements. With a comprehensive range of optional accessories, the PR-1w can be optimized for specific applications.
-
Product
UV Man Spectrometer
-
UV Raman (with laser wavelengths below 400nm) can be used to probe specific sample properties, and benefit from experiment properties different from typical visible Raman measurements – for example, greatly increased Raman scattering efficiency, modified laser penetration within the sample, and resonance coupling to different chemical moeities. However, UV analyses come with a number of technical challenges, that require considered instrument design to allow UV Raman to be a truly useful tool for the researcher.
-
Product
IndiRAM GEM Identification System
ndiRAMTM Portable Series
-
IndiRAMTM Portable Series Raman Spectrometer system for Gemmological studies is a quick screening system of the samples with high throughput.
-
Product
EMORAL LiDARESA Mobile Raman
-
The EMORAL LIDAR observations at the PolWET site in Rzecin, Poland, on 10 June 2019. The scattering ratio (top), quasi-particle depolarization ratio (middle), and backscatter colour ratio (bottom) derived at 532 nm with 30 m spatial and 30 s temporal resolutions
-
Product
Raman Spectrometers
-
The extensive Raman spectrometer family from Anton Paar offers the right instrument for what you want to do: Identify unknown substances, verify samples in quality assurance, analyze the chemical composition of samples, or monitor their changes.
-
-
Product
Spectroscopy
Metrohm Instant Raman Analyzers
-
Handheld spectrometer for quick and easy identification of unknown substances
-
Product
AFM (Atomic Force Microscope) Optical Platform
-
The AFM platform allows fully-integrated use of confocal Raman microscopy and AFM for Tip-Enhanced Optical Spectroscopies (such as Tip-Enhanced Raman Spectroscopy (TERS) and Tip-Enhanced PhotoLuminescence (TEPL)), but also for truly co-localized AFM-Raman measurements.The myriad of AFM (Atomic Force Microscope) techniques that allow study of topographical, electrical and mechanical properties can be performed with any laser source available in Raman spectrometer, or with other external illumination (e.g., solar simulator or other tunable or continuum source). TERS and TEPL can provide nanoscale chemical and structural information, making the AFM-Raman platform a two-way road; where complimentary techniques provide novel and unique imaging capabilities to each other.
-
Product
Bench-top Raman Spectrometer
MacroRAM™
-
Bench-top Raman Spectrometer - Best in Class Raman Sensitivity and Software, with Class 1 Laser Safety. The new MacroRAM Raman spectrometer brings simplicity to Raman measurements without compromising the ability to handle even the most complex samples. Its compact and robust design, including Class 1* laser safety means it''''s safe for use in most environments, from undergraduate teaching labs to industrial QC applications.
-
Product
AFM-Raman for Physical and Chemical Imaging
XploRA Nano
-
Fully integrated system based on SmartSPM state of the art scanning probe microscope and XploRA Raman micro-spectrometer.Compact, fully automated and easy-to-use, the XploRA Nano concentrates the power of AFM-Raman into an affordable yet full-featured package, making TERS imaging a reality for all. The TERS proven system.
-
Product
Double Monochromators/Spectrographs
Omni-λxxxD
-
Omni-λxxxD series Double Monochromators/SpectrographsThe Double Monochromators/Spectrographs include two 300 mm focus monochromators( or 500 mm, 750 mm focus) which are with fine alignment. Double Monochromator has the dispersion subtraction mode and dispersion sum mode. Using dispersion sum mode, the double monochromator / spectrograph spectral resolution can be doubled, suitable for high resolution measurement. Using dispersion subtraction mode, the double monochromator / spectrograph stray light can be reduced effectively, suitable for weaker signal detection, such as Raman spectral measurement.
-
Product
Atomic Force Microscope (AFM)
CombiScope
-
The CombiScope Atomic Force Microscope (AFM) is an advanced research instrument that provides the entry path for researchers in biology, spectroscopy and photonics. If you work with transparent samples either in air or in liquid towards nano-scale structures and (near-field) nano-optical properties investigation, the CombiScope is the right solution for you. It perfectly combines inverted optical and atomic force microscopies and unleash all the power of both techniques providing the instrument adjustment and measurement automation, high resolution and high speed. Plus it can be easily upgraded to our Raman spectrometers.
-
Product
Raman Probes
-
As with Raman spectrometers, a Raman probe is used to measure the inelastic scattering of light from a sample. Raman scattering is produced when the energy levels of photons are shifted up or down as a result of excitation by a monochromatic source (usually a laser). The change in vibrational frequency is used to determine the composition of a target substance.
-
Product
Bench-Top Macroscopic Raman Spectrometer
Modular Raman Microscope
-
HORIBA’s modular Raman spectrometers allow the user to have a flexible Raman system to handle high performance spectroscopy at a price to fit most budgets. The modular microscope can also be used with a range of sampling options, including remote probes. A Raman spectrum recorded with a fiber-coupled Raman microscope of acetaminophen is shown below.
-
Product
Phase Locked Laser System
SolsTiS-Phase Locked
-
The phase locked SolsTiS system is primarily designed for use in atom interferometry and quantum computing where Raman transitions are commonly used, although we can tailor the setup to other applications. The system provides extremely low phase noise and high output powers. Full control over the system is provided through our easy to use Ice Bloc user interface.
