Spectroscopy
The use of the absorption, emission, or scattering of electromagnetic radiation by atoms or molecules (or atomic or molecular ions) to qualitatively or quantitatively study the atoms or molecules, or to study physical processes. Virginia Tech
See Also: Dissolved Gas, Terahertz
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AFM (Atomic Force Microscope) Optical Platform
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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.
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EIS Battery Analyzer
BA8100
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The BA8100 is designed to accurately measure the internal impedance of a single cell or battery stack with voltages as high as 80 V. In addition to impedance, auxiliary measurements include voltage, current, phase, capacitance, inductance, quality factor and more. With the provided software, the BA8100 can perform Electrochemical Impedance Spectroscopy (EIS) across a frequency range of 50 mHz to 10 kHz. The impedance spectrum can be evaluated through the Nyquist and Bode plot tools to determine effective series resistance (ESR) and track battery health. Included with the BA8100 is a self-test fixture to verify the instrument’s performance or compensate for resistance introduced by the test leads.
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Compact Gamma Ray Detector
EV-CPG
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The EV-CPG compact gamma ray detector is perfect for a wide range of nuclear spectroscopy needs. This compact gamma detector is ideal for applications requiring high efficiency, high resolution, and room temperature operation. The compact size and rugged design allow for use in harsh or restrictive environments. Available in standard sizes of 10x10x10mm3 and 10x10x7.5mm3. Other sizes available in limited quantities.
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Balanced Optical Receivers
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For noise sensitive experiments, we offer balanced photoreceivers that suppress up to 50 dB of laser / source intensity noise in experimental set-ups. These balanced optical receivers with two well-matched photodetectors can eliminate the need for lock-in amplifiers and can make all of the difference when you are trying to detect a small signal in applications like absorption spectroscopy, or heterodyne detection.
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SparkFun Spectral Sensor Breakout
AS7262 Visible (Qwiic)
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The SparkFun AS7262 Visible Spectral Sensor Breakout brings spectroscopy to the palm of your hand, making it easier than ever to measure and characterize how different materials absorb and reflect different wavelengths of light. The AS7262 Breakout is unique in its ability to communicate by both an I2C interface and serial interface using AT commands. Hookup is easy, thanks to the Qwiic connectors attached to the board --- simply plug one end of the Qwiic cable into the breakout and the other into one of the Qwiic Shields, then stack the board on a development board. You’ll be ready to upload a sketch to start taking spectroscopy measurements in no time.
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Small InGaAs line-scan camera module with rectangular pixels
XSL R Series
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Your product description goes here.The XSL R series, based on an in-house developed detector, offer high-resolution short-wave infrared (SWIR) line-scan images.The XSL R camera modules are able to image line rates up to 40 kHz, for demanding spectroscopy applications.The module comes with an industry standard CameraLink or GigE Vision, or a 16 bit Digital Video interface.Benefits & Features• High speed line-scan imaging up to 40 kHz (10 kHz for the 2048)• High resolution 1024/2048 Rectangular pixels option (12.5μm x 250μm)• CameraLink, GigE Vision or 16 bit Digital Video interfacing
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Optical Delay Generator
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The FR-203 provides periodic linear optical delay (~200ps) for ultrashort laser pulses. It is useful for applications such as time resolved spectroscopy and time domain terahertz spectroscopy. A well defined optical delay is generated with interferometric precision.
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Nanopositioning Systems
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Mad City Labs'' nanopositioning systems move and maintain the position of objects with sub-nanometer precision and high stability. Applications for nanopositioners include super resolution microscopy, high speed confocal imaging, AFM, NSOM, SPM, optical trapping, fiber positioning, single molecule spectroscopy, single molecule/particle tracking, high resolution optical alignment, nanoscopy and lithography.
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Optical Tweezers
PicoTweezers
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Single or dual beam optical tweezers system based on an inverted microscope • 3D real-time video-based force measurements with sub-pN resolution • Huge free space above optical trap for all kinds of sample chambers and carriers • Manipulate and navigate trapped objects with nanometer precision • Easily extendable to fluorescence, STED, Raman spectroscopy, TIRF, or CLS.
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Precisive® 5 Application Specific Gas Analyzers
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The Precisive® Gas Analyzer is a real-time gas analyzer based on MKS' unique Tunable Filter Spectroscopy (TFS™) platform. The Precisive suite of products are calibrated for the measurement of a wide range of gases across multiple process industries. The real-time, continuous measurement capability provides immediate analysis ensuring control of critical process parameters.
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Tunable Diode Laser
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Tunable diode laser absorption spectroscopy (TDLAS) is a fast, accurate, non-contact gas analysis technique that responds quickly to changing analyte concentrations. It is a proven technology free of interferences from other sample stream components.
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SFG Spectrometer
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Ideal laser spectroscopy tool for in-situ investigation of surfaces and interfaces. SFG spectrometer operates from 4300 to 625 cm-1 and provides < 6 cm-1 spectral resolution. The heart of the system is a picosecond Nd:YAG laser generating 25 ps pulses that pump an OPG/DFG delivering from 260 to 20 µJ per pulse across the IR range
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Alpha Spectroscopy
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Alpha spectroscopy is used to identify and quantify radionuclides based on the alpha particles emitted in the decay process. Similar to Gamma Spectroscopy, energy spectra are generated with high precision detectors and electronics and analyzed with special software. Typically, samples are measured following chemical separation to isolate the radionuclides of concern due to the complexity associated with correcting for these interferences with spectrum analysis software as is common for many Gamma Spectroscopy measurements.
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Benchtop Analyzer
LabSpec 4 Bench
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Analytical Spectral Devices, Inc.
Configured specifically for fixed-location analysis with AC power, the LabSpec 4 Bench benchtop analyzer provides all the performance of ASD's LabSpec laboratory spectrometer line in a space-saving and cost-efficient design. The benchtop analyzer features sophisticated near infrared (NIR) spectroscopy at a 10 nm resolution for accurate measurement of a wide variety of materials in real time. Like the portable models, an enhanced spectrometer configuration more than doubles the signal-to-noise performance in the SWIR regions.
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Custom Spectroscopy Solutions
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Scientific discovery doesn’t always follow traditional pathways. The Optical Spectroscopy Division custom configures spectrometers, monochromators, microspectroscopy, CCD’s and other instruments for fluorescence spectroscopy and other R&D and QC applications. We design systems that meet your individualized research or application needs. We create the tools required to make investigations where standardized tools do not meet your needs or where no tools currently exist.
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Hyperspectral Cameras
HySpex
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HySpex, NEO's line of hyperspectral cameras, are well-proven, robust, compact, high performance and versatile instruments for a multitude of applications, ranging from airborne to laboratory, field and industrial use of imaging spectroscopy.
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Infrared, Near Infrared & Raman Spectroscopy
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Our selection of near, mid and far infrared and Raman spectrometers is unrivalled across the industry. Our portfolio includes compact, portable routine as well as powerful research spectrometers. Our solutions cover the entire spectral range from near infrared, mid infrared, far infrared to THz applications.
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CiCi-Raman-NIR Spectrometer
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HORIBA Scientific is the world leader in Raman spectroscopy, with a long history in the technique. HORIBA OEM has pioneered Raman systems for spectroscopy, designing and manufacturing them for over four decades. We provide miniature spectrometers and systems for industrial applications such as process control, security, pharmaceutical, medical and semiconductor. The CiCi-Raman-785 is our high performance spectrometer featuring an aberration-corrected concave holographic grating configured with Horiba Scientific's Syncerity™ TE-cooled CCD camera with a VIS-NIR 2048 x 70 detector, in a TE-cooled Head at -50° C.
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Real-time and Direct Correlative Nanoscopy
LabRAM Soleil Nano
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Fully integrated system based on our OmegaScope scanning probe microscope and LabRAM Soleil Raman microscope. LabRAM Soleil Nano offers unprecedented capabilities for direct co-localized AFM-Raman and photoluminescence measurements. AFM imaging modes (topographic, electrical, mechanical, etc.) and Raman acquisition can be performed either sequentially or simultaneously at the same location of the sample surface. Optical nano-resolution is also achievable with Tip-Enhanced Raman Spectroscopy and Photoluminescence (TERS/ TEPL). LabRAM Soleil Nano is compatible with the environmental chamber for AFM and Raman measurements in controlled atmosphere and at low temperatures.
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NIRONE Sensor S
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The NIRONE Sensor S brings material measurements from the laboratory to the field: it is small, mobile, innovative, robust and cost-effective. It is enabling fast and reliable measurements at the near infrared (NIR) spectral range from 1350 to 2450 nm and works even in the most demanding environments. NIRONE Sensor S offers excellent performance fully comparable to the best laboratory instruments in a small package and only a fraction of the cost. It can create new applications for materials analysis by NIR spectroscopy, including
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Custom/OEM
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From simple modifications of existing designs to completely custom projects, Mad City Labs’ engineering team has the capability to quickly provide unique piezo nanopositioning systems for specialized requirements. In-house research scientists with extensive experience in UHV instrumentation, optical spectroscopy, and nanotechnology can provide the real-world advice and assistance to move a project from concept to reality. Generally, this work is done without NRE charges and without any requirements for multiple unit orders. Whether you needa special physical configuration, expanded or reduced range of motion, compatibility with environmental conditions, or special materials, a short discussion with our technical sales staff and engineers will quickly reveal the feasibility of a custom solution.
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Scientific Solutions
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Our backside illuminated (BSI) and backthinned Charge Coupled Devices (CCDs) and front and back illuminated CMOS image sensors (CIS) are seen as the gold standard for scientific and quantum imaging in applications in spectroscopy, microscopy, in vivo, x-ray and astronomy. We understand that every imaging application is unique and requires our engineers and scientists to work closely with our customers providing highly tailored imaging solutions.
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HiL Simulators
NovaCarts Battery
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Exact cell simulation for validating battery management systems (BMS). "NovaCarts Battery" represents one of the most powerful and precise cell simulation systems on the market. This is leveraged by the modular and scalable HiL system to create optimum conditions for developing new battery management functions such as state-of-charge (SoC) and state-of-health (SoH) controls, active cell balancing and electrochemical impedance spectroscopy.
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XPS/ESCA Service
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X-ray Photoelectron Spectroscopy (XPS Analysis), also known as Electron Spectroscopy for Chemical Analysis (ESCA), is used to determine quantitative atomic composition and chemistry. It is a surface analysis technique with a sampling volume that extends from the surface to a depth of approximately 50-70 Angstroms. Alternatively, XPS analysis can be utilized for X-ray Photoelectron Spectroscopy (XPS) or Electron Spectroscopy for Chemical Analysis (ESCA) from Evans Analytical Group (EAG).sputter depth profiling to characterize thin films by quantifying matrix-level elements as a function of depth.
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Online DGA
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HAOMAI Electric Test Equipment Co., Ltd.
Innovatively combined semiconductor laser technology and photo-acoustic spectroscopy for Online DGA.
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IR Detectors
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Opto Diode manufactures high performance infrared detectors with a wide variety of active area sizes, cooling alternatives, packaging, windows, lenses, and filters options. These detectors are ideal for gas analysis, emissions monitoring, spectroscopy, process control, flame and fire monitoring. Our A Series lead sulfide (PbS) detectors provide the highest sensitivity in the 1µm to 3µm wavelength region. Our B Series lead selenide (PbSe) detectors deliver the best overall performance in a wider spectral range from 1µm to 5µm. Our multichannel (MCDs) devices are ideal for simultaneous detection of multiple gases including CO2, CO, and other hydrocarbons.
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Functional Near-Infrared Spectroscopy System For Research
LABNIRS
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Just how the human brain functions remains one of the greatest unsolved puzzles. To solve this mystery, brain-function imaging for visualization of brain functions has developed rapidly in recent years. In particular, in vivo optical imaging by functional near-infrared spectroscopy (fNIRS) has attracted attention as a technique that supports next-generation brain science. Utilizing its leading-edge science and technology, Shimadzu has developed the LABNIRS, thereby contributing to the still growing field of brain science.
