HÜBNER Photonics - a div of HÜBNER GmbH & Co KG

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About HÜBNER Photonics - a div of HÜBNER GmbH & Co KG

Number of Employees: 2400

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Heinrich-Hertz-Str 2
Kassel 34123
Germany

More Info on HÜBNER Photonics - a div of HÜBNER GmbH & Co KG

Specializes in laser technology, terahertz products and high frequency systems. Provides reliable advanced tools and solutions for applications in the life sciences, security, biomedical, metrology, manufacturing, industrial and scientific industries.

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Technology leaps in quantum sensing

In this white paper we give an overview of the current proposed solutions for quantum sensors based on NV center magnetometry.

Articles

Lasers & Sources

Single-frequency laser offers up to 1 W output power

LFW Staff

The Cobolt Jive 561 nm continuous-wave (CW) single-frequency diode-pumped laser operates at 561.2 nm.

Elizabeth Illy, head of marketing for HÜBNER Photonics and director of marketing, regional sales at Cobolt, a HÜBNER company.

Lasers & Sources

Faces in Photonics: Elizabeth Illy, HÜBNER Photonics

Justine Murphy

Meet Elizabeth Illy, the head of marketing for HÜBNER Photonics and director of marketing, regional sales at Cobolt, now a HÜBNER company.

Lasers & Sources

532 nm Q-switched laser has use in lidar, among other applications

LFW Staff

The Cobolt Tor XE 532 nm air-cooled, Q-switched laser delivers 0.25 mJ per pulse at up to 1 kHz repetition rate in a compact laser head.

FIGURE 1. The spectral demixing principle shows normalized spectra of two typical red dyes, AF647 and CF680, with the long-pass dichroic filter at 700 nm to separate the two emission (a); an example of PSF recordings on Cam1 and Cam2 (b, top), zoom-in (b, middle), and 2D Gaussian PSF representation to evaluate center position and photon counting (b, bottom); photon ratio distribution and an example of ranges chosen for ƛ assignment (c); an optical pathway adopted for the spectral separation, with a first dichroic separate excitation from emission—the emission light is then split with a second long-pass dichroic into the two cameras (d); and an example of image reconstruction of a Cos7 cell labeled for tubulin AF647 and Clathrin CF680 (e).

Bio&Life Sciences

STORM made easy for high-throughput research

Valentina Caorsi

Single-molecule localization microscopy (SMLM) methods are now vital to accessing biological information at the nanoscale. Now, a novel solution involving just a single laser ...

Lasers & Sources

Single-frequency laser covers the 355–1064 nm wavelength range

LFW Staff

The Cobolt 05-iE is an integrated model single-frequency laser for the 355–1064 nm wavelength range.

Lasers & Sources

Q-switched laser has use in photoacoustic microscopy

LFW Staff

The Cobolt Tor XE compact Q-switched laser operates at 1064 nm with 0.5 mJ/pulse.

FIGURE 1. Schematics of a laser process based on population inversion and stimulated emission in a four-level gain medium (a) and optical parametric conversion in a nonlinear crystal (b). The process is subject to conversion of photon energy (wp = ws + wi) and photon momentum (kp = ks + ki).

Lasers & Sources

Colors expanded: Widely tunable lasers are tailored for quantum research

Jaroslaw Sperling

Extended wavelength coverage of OPOs advances studies on diamond-based quantum emitters.

Lasers & Sources

HÜBNER Photonics 488 nm laser is designed for Raman spectroscopy

LFW Staff

The 08-NLD 488 nm laser, part of the Cobolt 08-01 series, provides 40 mW output power with wavelength stability of less than 1 pm.

FIGURE 1. The parametric process in optical parametric oscillators (OPOs) can be perceived as splitting of an incoming pump photon of high energy into two photons of lower energy (usually denoted as signal and idler) and is subject to the conservation principles of photon energy and photon momentum.

Detectors & Imaging

Optical Parametric Oscillators: Novel tunable lasers enable new nanoimaging techniques

Korbinian Hens

State-of-the-art OPO technology delivers laser light for excitation-tunable tip-enhanced Raman spectroscopy.

FIGURE 1. Detector sensitivity vs. wavelength for silicon (Si) and InGaAs photodiodes.

Lasers & Sources

How to Choose a Laser: How to choose a laser for Raman spectroscopy

Elizabeth Illy

Here, in detail, are the lasers that can be used for Raman spectroscopy and why.

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Additional content from HÜBNER Photonics - a div of HÜBNER GmbH & Co KG

An example of an image taken in a single-molecule localization microscopy (SMLM) setup from the Department of Biotechnology & Biophysics at Julius-Maximilian-University of Würzburg; the three-color image is a BPAE cell with mitotracker (red), actin (cyan), and nucleus (DAPI; blue) staining (recording time: 4 s per channel, with 2048 × 2048 pixel image detail).

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Fluorescence Microscopy/Illumination: Highly stable multi-line lasers for next-generation imaging

Elizabeth Illy

Advances in laser manufacturing are enabling extremely compact multi-line illumination devices that ease instrumentation design and serve researchers' needs for fuss-free reliability...

FIGURE 1. A schematic shows the components of a typical LIBS setup.

Spectroscopy

Laser-induced Breakdown Spectroscopy: Compact industrial LIBS systems can assist aluminum recycling

Håkan Karlsson

Industrial laser processes based on laser induced breakdown spectroscopy (LIBS), including scrap-aluminum sorting for recycling, can benefit from the use of compact, high-repetition...

Fluorescence

CELL BIOLOGY/BIOMEDICAL IMAGING: Ultraviolet becomes accessible

Elizabeth Illy

UV lasers are attractive for excitation of fluorophores growing in popularity for DNA analysis and calcium imaging applications.