Publications
Explore our comprehensive collection of Publications, featuring in-depth articles, research papers, and technical resources on photonics. Stay up to date with the latest advancements and discover how our innovative products are shaping the future of photonics technology.
Customer publications
Application: Fluorescence microscopy
Product line: Cobolt
Wavelength: 488 nm, 532 nmTreAz: Innovative Tool for Click-Free Imaging
Researchers have unveiled a new method to observe how sugars move within living cells, potentially transforming our understanding of cellular processes and disease mechanisms.
Customer publications
Application: Nanophotonics
Product line: Cobolt
Wavelength: 532 nmNew Technique Enhances Detection of Nanoscale Spin Waves
Researchers from Brno University of Technology in the Czech Republic have developed a new method for detecting and measuring nanoscale spin waves, which could revolutionize the field of magneto-optics and spintronics.
Customer publications
Application: Quantum
Product line: Cobolt
Wavelength: 532 nmControlling Single-Photon Emitters with Strain
Researchers from Boston University and the Center for Nanophase Materials Science at the Oak Ridge Nationla Laboratory have made a significant advancement in the field of quantum photonics by using strain to control single-photon emitters (SPEs) in multilayer gallium selenide (GaSe).
Customer publications
Application: Materials science
Product line: Cobolt
Wavelength: 532 nmPerovskite Solar Cells: the Future of Solar Energy
Reasearchers have made significant strides in understanding the behavior of perovskite materials, which are crucial for the future of solar energy.
Customer publications
Application: Kerr effect spectroscopy, Raman spectroscopy
Product line: Cobolt
Wavelength: 515 nmNew Insights into Advanced Optical and Magnetic Materials
A recent study published in the journal of Applied Research has unveiled fascinating insights into the properties of Thulium Iron Garnet (TmIG) thin films, which could pave the way for advancements in optical and magnetic technologies.
Our publications
Application: Quantum
Product line: Ampheia, C-WAVE, Cobolt
Wavelength: -Advanced Laser Solutions for Next-Gen Quantum Technologies
OPS 2024 Gothenburg. Quantum applications require lasers with extraordinary specifications, such as exceptional stability, spectral purity, low noise, and precise tunability, to maintain coherence and accuracy in highly sensitive quantum environments. These requirements pose unique engineering challenges. Learn more in our poster presention.
Customer publications
Application: Quantum
Product line: Cobolt
Wavelength: 532 nmExploring Single-Photon Emission in Silicon Nitride
The study reveals that single-photon emitters, essential for quantum information technologies, can operate at room temperature and integrate seamlessly with existing silicon photonics.
Customer publications
Application: Fluorescence microscopy
Product line: Cobolt
Wavelength: 638 nmEnhanced Photodynamic Therapy for Cancer Treatment
Researchers use Transient State Monitoring (TRAST) to observe the transient states of photosensitizers in real-time, helping to understand how these drugs behave under different conditions.
Customer publications
Application: Raman spectroscopy
Product line: C-WAVE
Wavelength: 1300 nm, 450 nm, 650 nm, 900 nm, TunableNew Study in Near-Field Microscopy using TERS
Researchers from the Freie Universität Berlin have made a significant advancement in the field of near-field optical microscopy and spectroscopy.
Customer publications
Application: Fluorescence microscopy
Product line: C-FLEX
Wavelength: 405 nm, 488 nm, 515 nm, 561 nm, 638 nmPOLCAM: A Novel Method in Molecular Microscopy
POLCAM is an innovative technique meant to simplify the complex process of molecular orientation detection, making it more accessible for biological applications.
Customer publications
Application: Raman spectroscopy
Product line: Cobolt
Wavelength: 785 nmNew Insights into UV-Induced Changes in Bacterial Spores
Research team from Umeå University and the Swedish Research Agency explores how UV exposure alters the spectral and morphological characteristics of Bacillus thuringiensis spores.
Customer publications
Application: Quantum
Product line: Cobolt
Wavelength: 532 nmNew Discovery in Quantum Technology: Shining Light on Organic Molecules
scientists have developed organic molecules that can glow brightly and be used in advanced quantum technologies
Customer publications
Application: Quantum
Product line: Cobolt
Wavelength: 594 nmNanographene Research Unveils Highly Soluble Quantum Dots
Researchers have unveiled a new family of nanographene materials with the help of the Cobolt Mambo 594 nm laser.
Customer publications
Application: Fluorescence microscopy
Product line: Cobolt
Wavelength: 488 nmNew Breakthrough in Cellular Imaging with the Cobolt 06-MLD Laser
Scientists at the KTH Royal Institute of Technology in Sweden, and Calico Life Sciences, have made significant strides in cellular imaging.
Customer publications
Application: Fluorescence microscopy
Product line: Cobolt
Wavelength: 561 nm, 638 nmA new tool to automate the analysis of fluorescence microscopy images
Researchers at the University of Cambridge have unveiled a computational suite for the structural and functional characterization of amyloid aggregates.
Customer publications
Application: Fluorescence microscopy
Product line: Cobolt
Wavelength: 405 nm, 488 nm, 561 nm, 638 nmCambridge University’s new findings on Alzheimer’s disease
Researchers from Cambridge University have made breakthrough in Alzheimer's disease by using super-resolution microscopy.
Customer publications
Application: Fluorescence microscopy
Product line: Cobolt
Wavelength: 488 nmResearchers uncover new insights on bacterial proteins’ transport system
Researchers have uncovered new findings on how bacterial proteins work together to transport sialic acid across cell membranes.
Customer publications
Application: Multiphoton microscopy
Product line: VALO
Wavelength: 1050 nm, FemtosecondNew study on mechanical behavior of skin
Scientists in Amsterdam use the VALO femtosecond laser to scrutinize collagen and elastin fibers in human dermis skin samples, capturing them in 3D.
Customer publications
Application: Nanophotonics
Product line: Cobolt
Wavelength: 515 nmNew study: CZTS Nanocrystals Boost Solar Panel Efficiency
A new study published in the journal of Nanomaterials explores the potential of a material known as Cu2ZnSnS4 (CZTS) for use in solar cells and as a potential thermoelectric material.
Customer publications
Application: Holography
Product line: Cobolt
Wavelength: 532 nmWaveguide holography for 3D AR glasses
Reality Labs Research at Meta, in collaboration with Seoul National University, have unveiled a groundbreaking compact holographic near-eye display concept using our Cobolt Samba 532 nm laser.
Customer publications
Application: Quantum
Product line: Cobolt
Wavelength: 515 nmNew Approach Unveiled: Harnessing Dark Spins for Quantum Computing
Researchers at Delft University of Technology in the Netherlands, in collaboration with QTECH Group have unveiled a promising strategy for multi-qubit quantum registers with our Cobolt 06 MLD 515 nm laser.
Customer publications
Application: LIBS
Product line: Cobolt
Wavelength: 1064 nmNew editorial: High-Resolution High-Speed LIBS Microscopy
The development of a µ-LIBS imaging microscope can provide an astonishing 10 µm resolution in under 20 minutes per cm².
Customer publications
Application: Fluorescence microscopy
Product line: Cobolt
Wavelength: 561 nmRotating Coherent Scattering Microscopy
Rotating Coherent Scattering (ROCS) microscopy enables high-contrast, label-free imaging of live cells with unprecedented speed and resolution.
Customer publications
Application: Quantum
Product line: C-WAVE
Wavelength: TunableContrasts in the electrical and optical readout of NV centers in diamond
Researchers at The Munich Center for Quantum Science and Technology, in collaboration with the Technical University of Munich in Germany use our C-WAVE Tunable laser to study the nuanced contrasts observed in the electrical and optical readout of NV centers in diamond.
Customer publications
Application: Multiphoton microscopy
Product line: Cobolt
Wavelength: 532 nmHarnessing Ultrafast Fluctuations for Enhanced Non-linear Imaging
Researchers in Japan have uncovered a pivotal aspect of optical parametric generators: the phenomenon of bunching caused by ultrafast intensity fluctuations.
Our publications
Application: Multiphoton microscopy
Product line: VALO
Wavelength: FemtosecondTwo and three photon imaging for personalized and real-time treatment optimization
FOM 2024. We propose simultaneous two and three photon imaging as a transformative approach facilitated by a new class of femtosecond lasers.
Our publications
Application: Fluorescence microscopy
Product line: Cobolt
Wavelength: -Multi-line lasers help simplify Light Sheet microscopes
FOM 2024. We present a multi-color laser, which in combination with an open-source descSPIM configuration enhances simplicity, cost-efficiency, and spectral flexibility.
Our publications
Application: -
Product line: -
Wavelength: -The world’s first single-frequency radiation-balanced fiber amplifier is unveiled
The world’s first single-frequency radiation-balanced fiber amplifier is unveiled
Our publications
Application: Multiphoton microscopy
Product line: VALO
Wavelength: FemtosecondInterview – Up close with VALO in Photonics Views magazine
VALO femtosecond lasers are unlike any other femtosecond laser. The very clean ultra short pulse durations of < 50 fs give huge advantages. Read more in the post!
Our publications
Application: Quantum
Product line: C-WAVE
Wavelength: TunablePresenting at Photonics for Quantum
As quantum technologies is something we strongly believe in, we are happy to be a sponsor for this years event of Photonics for Quantum.
Our publications
Application: Multiphoton microscopy
Product line: VALO
Wavelength: FemtosecondNew article – Up close with VALO Innovations
Read our latest article on Physics World to understand how the new partnership between VALO Innovations and HÜBNER Photonics will give increased access to new femtosecond laser technology to many exciting applications.
More resources
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