Spectroscopy
A BROAD SPECTRUM OF POSSIBILITIES
Our supercontinuum sources are intrinsically suitable for a great variety of spectroscopy experiments, where broadband laser operation is required in the ultraviolet, visible or infrared. Share your spectroscopy problem with us, and we will colour your spectroscopy life.
APPLICATIONS
- Ellipsometry
- Spectral imaging
- Spectral reflectivity imaging
- Cavity ring down spectroscopy
- Infrared spectroscopy
- Time-resolved spectroscopy
- Vibrational spectroscopy
RELATED PRODUCTS
Electro MIR 4
High power Mid Infrared supercontinuum laser source
Electro VIS
Visible triggered mid-power supercontinuum source
Opera
Dual output (single wavelength and broadband spectrum ) for CARS application
PUBLICATIONS
Hyperspectral coherent Raman imaging – principle, theory, instrumentation, and applications to life sciences
Journal of Raman Spectroscopy 47 (1), 116-123, 2016
Observation of Raman optical activity by heterodyne-detected polarization-resolved coherent anti-Stokes Raman scattering
Physical Review Letters 109 (8), 083901, 2012
Differential optical absorption spectroscopy measurement of CO2 using a nanosecond white light continuum
Optics Letters 36 (24), 4782-4784, 2011
PCF-based cavity enhanced spectroscopic sensors for simultaneous multicomponent trace gas analysis
Sensors 11 (2), 1620-1640, 2011
Spectrally resolved cavity ring down measurement of high reflectivity mirrors using a supercontinuum laser source
Applied Optics 48 (35), 6754-6759, 2009
Ultrabroadband multiplex CARS microspectroscopy and imaging using a subnanosecond supercontinuum light source in the deep near infrared
Optics Letters 33 (9), 923-925, 2008
Remote sensing
SUPERCONTINUUM IS YOUR SIXTH SENSE
You are looking for new solutions of pollution analysis, gaz detection, wind sensing, vegetation monitoring? Think supercontinuum. The supercontinuum approach will revolutionize your system of terrestrial, oceanic or atmospheric sensing.
APPLICATIONS
- Light detection and ranging (LIDAR)
- Hyperspectral imaging
Particle analysis
MULTIPARAMETRIC ANALYSIS MADE EASY
Multiple wavelength operation is a powerful technique for analysing cells or particles, by means of fluorescence and/or scattering measurement. For example, this multiparametric approach can be used to differentiate blood cell subpopulations. In this context, supercontinuum sources provide you with an incredible choice of excitation wavelengths.
Need for analyzing cells in flow or detecting nanoparticles in food? Try the supercontinuum solution.
APPLICATIONS
- Flow cytometry
- Nanoparticle detection
- Particle size analysis
- Particle shape analysis
- Microfluidics particle sorting
Metrology
THE SUPERCONTINUUM PRECISION
Leukos supercontinuum sources are excellent for the broadband characterization of optical components. They are the perfect tool for accurate measurement in the ultraviolet, visible or infrared.
APPLICATIONS
Optical components characterization:
- Transmittance
- Reflectance
- Dispersion
- Birefringence
- Cut-off wavelength
- Detector responsivity
RELATED PRODUCTS
Electro MIR 4
High power Mid Infrared supercontinuum laser source
Rock
High power supercontinuum source
Samba
Emission from 340 nm to 2400 nm - Total power up to > 250 mW
PUBLICATIONS
Liquid Resin Infusion process monitoring with superimposed Fibre Bragg Grating sensor
Polymer Testing 31 (8), 1045-1052, 2012
Discriminated measures of strain and temperature in metallic specimen with embedded superimposed long and short fibre Bragg gratings
Measurement Science and Technology 22 (1), 2011
Supercontinuum sources for metrology
Metrologia 46 (4), S277–S282, 2009
Imaging
SUPERCONTINUUM LASERS
Supercontinuum lasers are light sources that combine the benefits of a broadband lamp (ultraviolet/visible/infrared emission) and of a laser (excellent beam quality). Since 2006, Leukos has been offering supercontinuum solutions to universities, research institutes and industry worldwide.
APPLICATIONS
Supercontinuum-based imaging empowers your applications in biology, medicine, materials science and many other areas. The following techniques are commonly used:
- Optical coherence tomography
- Transmission imaging
- Confocal microscopy
- Multiphoton microscopy
- Coherent Raman microscopy
RELATED PRODUCTS
Electro MIR 9
High power Mid Infrared supercontinuum laser source
Coverage
MID-IR Broadband Fiber Laser
Indus piano
Compact OEM supercontinuum source
Indus forte
High power OEM supercontinuum source
Electro IR
Near Infrared externally triggered supercontinuum source
Electro MIR 4
High power Mid Infrared supercontinuum laser source
New wave
Fully adjustable pulse width & repetition rate supercontinuum source
Rock
High power supercontinuum source
Electro VIS
Visible triggered mid-power supercontinuum source
Electro VISIR
Triggered supercontinuum source
PUBLICATIONS
Hyperspectral coherent Raman imaging – principle, theory, instrumentation, and applications to life sciences
Journal of Raman Spectroscopy 47 (1), 116-123, 2016
Multicolor multiphoton microscopy based on a nanosecond supercontinuum laser source
Journal of Biophotonics 9 (7), 709-714, 2016
Near-infrared supercontinuum laser beam source in the second and third near-infrared optical windows used to image more deeply through thick tissue as compared with images from a lamp source
Journal of Biomedical Optics 20 (3), 030501, 2015
Chemical imaging of lipid droplets in muscle tissues using hyperspectral coherent Raman microscopy
Histochemistry and Cell Biology 141 (3), 263-273, 2014
Label-free tetra-modal molecular imaging of living cells with CARS, SHG, THG and TSFG (coherent anti-Stokes Raman scattering, second harmonic generation, third harmonic generation and third-order sum frequency generation)
Optics Express 20 (9), 9551-9557, 2012
Compact supercontinuum sources and their biomedical applications
Optical Fiber Technology 18 (5), 375-378, 2012
New opportunities offered by compact sub-nanosecond supercontinuum sources in ultra-broadband multiplex CARS microspectroscopy
Journal of Raman Spectroscopy 42 (10), 1871-1874, 2011