News

2023 Nobel Prize in Physics announced

Congratulations to the 2023 recipients of The Nobel Prize in Physics: Pierre Agostini, Ferenc Krausz and Anne L’Huillier for their research into attosecond pulses of light.

Agostini of The Ohio State University in the United States, Krausz of the Max Planck Institute of Quantum Optics and Ludwig Maximilian University of Munich in Germany, and L’Huillier of Lund University in Sweden are awarded 11 million Swedish crowns (about $1m).

The three Nobel Prize laureates in physics 2023 are being recognised for their experiments, which have given humanity new tools for exploring the world of electrons inside atoms and molecules. They have demonstrated a way to create extremely short pulses of light that can be used to measure the rapid processes in which electrons move or change energy.

Why is the study of attoseconds so important?

For a long time, femtosecond was regarded as a hard limit for the shortest possible bursts of light, until attoseconds were discovered! Attoseconds allow scientists to look at the very smallest particles at the very shortest timescales. Essentially an attosecond is one billionth of a billionth of a second!

This year’s laureates have conducted experiments that demonstrate a method for producing pulses of light that are brief enough to capture images of processes inside atoms and molecules.

 We are very excited to see its potential impact and applications in many fields including medical diagnostics, electronics, and other uncharted territories.

Niklas Elmehed/ The Royal Swedish Academy of Sciences
2023-10-06T11:15:02+02:00
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EPIC interviews Håkan Karlsson, head of HÜBNER Photonics

In the latest issue of Photonics Views Antonio Castelo from EPIC (European Photonics Industry Consortium) sits down with Håkan Karlsson, head of HÜBNER Photonics and CEO of Cobolt AB, now part of the HÜBNER Group. Dr Karlsson is also the recipient of EPIC’s 2023 CEO Award, which recognizes his outstanding leadership and contributions to the photonics industry.

The interview highlights Dr Karlsson’s life journey in the laser industry, and how he turned a PhD project, into what is now considered a globally successful brand of laser instrumentations 23 years later.

To read the full article click on the image below.

2023-09-29T12:24:40+02:00
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New editorial – Ultrashort pulse lasers help to observe more

We are excited to share a new editorial describing the advantages of sub 50 femtosecond laser pulses for multiphoton applications. The PhotonicsViews June 2023 edition outlines the true advantages of the VALO Femtosecond Series lasers and their ultrashort pulses in multiphoton microscopy where the high peak powers mean lower avergae powers are needed resulting in increased cell viability.

Read the full article below!

2023-10-31T15:41:53+01:00
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Welcome to Laser World of Photonics 2023

One of the years biggest laser and photonics exhibitions was a huge success! We had fun meeting all our customers and friends and being immersed in photonics for an entire week.

Thanks for stopping by our booth, we look forward to 2025!

Visitor vouchers

Don’t forget to let us know if you need any visitor vouchers by simply contacting your local sales representative or emailing us at marketing@hubner-photonics.com with the subject line LWoP voucher request, your name, company and how many tickets you would like to receive.

Book a meeting today!

Be sure to have time to discuss your project needs in detail by booking time with one of our laser experts already now:

Book a meeting with one of our laser experts

See our many new products especially for 2023!

This year we have many exiting new products including:

  • Higher power on our Cobolt JiveTM 561 nm – now with 1 W, perfect for DNA-PAINT
  • Higher powers on our 06-DPL 561 nm – now with 200 mW, versatile modulation and harmonised electrical interface
  • 7 new wavelengths on Cobolt 06-01 Series – 395 nm, 520 nm, 690 nm, 705 nm, 852 nm, 915 nm and 1064 nm
  • Higher powers on many wavelengths of our Cobolt 08-01 Series of lasers especially designed for Raman spectroscopy

Coming soon announcements include:

  • VALO Tidal – now with >2 W and <50 femtoseconds

We hope to see you there at booth B2:214!

2023-07-07T15:54:54+02:00
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New – Cobolt Jive 561 nm 1 W

HÜBNER Photonics, manufacturer of high performance lasers for advanced imaging, detection and analysis, proudly announces the release of a higher power model of the Cobolt JiveTM 561 nm on the 05-01 Series platform. Now with up to 1 W CW output power, the Cobolt JiveTM is perfectly suited to demanding applications in fluorescence microscopy, especially for super resolution microscopy such as DNA-PAINT, as well as interferometric based techniques such as particle flow analysis.

The Cobolt JiveTM is a continuous-wave single-frequency diode pumped laser (DPL) operating at 561.2 nm in a perfect quality TEM00 beam (M2< 1.1). A proprietary laser cavity design ensures ultra-low noise typically <0.1 % rms (over 20 Hz-20 MHz and over 10-40 ℃) and excellent power stability <2 % (±2°C and 8hrs).

All Cobolt lasers are manufactured using proprietary HTCure™ technology and the resulting compact hermetically sealed package provides a very high level of immunity to varying environmental conditions along with exceptional reliability. Lasers built using the HTCure™ technology have been shown to withstand multiple 60G mechanical shocks in operation without any sign of degraded performance. With thousands of installed units in the field, HTCure™ has proven to be one of the most reliable methods for making industrial grade lasers.

2023-06-08T17:29:00+02:00
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Meet us at FOM 2023

The week is heading towards its second half, but that only means the start of Focus on Microscopy 2023 in Porto, Portugal!

Come by booth 58 and let us show you our wide range of different high-performance lasers, and why they are a great choice for many microscopy applications.

If you are going, don’t miss the poster presentation:
“Novel Sub 50 fs Lasers for Improved Multiphoton Microscopy” to learn how multiphoton imaging can really benefit from ultrashort femtosecond pulses


See you on Monday April 3rd, 17:50-19:20!

2023-08-22T16:17:33+02:00
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New editorial – Holographic recordings without compromise

We are excited to share a new editorial in Photonics Views April/May edition titled “Holographic recordings without compromise“. Co-authored by HÜBNER Photonics’ very own Niklas Waasem in conjunction with our partner Stefan Trotzky at Meta Materials Inc. (META®).

Read about how our C-WAVE tunable laser is used to make volume holographic gratings (VBGs) which can be used in the future’s AR/VR/MX displays.

It is always satisfying to finally see the print version! A very big thanks to Stefan and the team at Meta Materials Inc. (META®).

READ ARTICLE
2023-11-07T16:01:00+01:00
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Håkan Karlsson wins EPIC CEO Award 2023

Congratulatons to HÜBNER Photonics head, Håkan Karlsson, for winning the EPIC – European Photonics Industry Consortium CEO Award. The award recognizes his outstanding leadership and contributions to the photonics industry.

Here is what Håkan said at the presentation of the award gala in Helsinki on 31st March, 2023:

 I am very honored to receive the EPIC CEO Award. This award is a recognition of the hard work and dedication of the entire HÜBNER Photonics team. Together, we have built a company that is at the forefront of the photonics industry, and we will continue to supply our customers with unique products that push the boundaries of what is possible.

Here is a snapshot of Håkan’s journey

Håkan co-founded Cobolt AB in 2000, as the first company to bring diode-pumped lasers using periodically poled nonlinear optical materials to the market. Under his leadership, Cobolt AB developed from a venture backed start-up to a fast-growing profitable laser manufacturer, recognized for its supply of reliable and very robust high performance lasers thanks to a unique manufacturing method.

After selling Cobolt AB to HÜBNER Group in 2015, Karlsson continued to lead the Photonics division, which now spans five sites worldwide and offers a range of technologies and products. These include single frequency lasers, laser combiners, ultrashort femtosecond lasers, and the unique and award-winning C-WAVE tunable single-frequency laser.

Find out more at the Epic Photonics Industry Consortium

2023-08-24T14:40:53+02:00
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Lasers from Solna – Interview in Elektroniktidningen

Monday 13th March, Week 11 2023

The Swedish technical magazine Elektoniktidningen, has made a follow-up interview with Cobolt AB founder, Dr Håkan Karlsson. A lot has happened since the first interview in 2008! Håkan takes journalist Mats Udikas on a tour of the office and factory in Stockholm, where all the Cobolt diode pumped lasers as well as the C-FLEX laser combiners are manufactured under the corporate name of HÜBNER Photonics.

Clinical diagnostics, holography and quantum technology are rapidly growing application areas for the Solna-based laser manufacturer Cobolt [now a part of HÜBNER Photonics]. The company has more than doubled its turnover in the past five years, largely due to increased demand for optical-based precision medicine analysis equipment in healthcare.

“Today, it is the manufacturing know-how and the construction method that is at the core of the company’s technology,” says Håkan Karlsson during the tour of the cleanroom where the lasers are assembled and adjusted.

ElekronikTidningen March 2023

2023-03-13T04:36:29+01:00
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DPG SAMOP 2023 – Meet us in Hannover

Atomic, Molecular, Quantum Optics and Photonics Section (SAMOP)

Event: DPG-Frühjahrstagung (DPG Spring Meeting) of the Atomic, Molecular, Quantum Optics and Photonics Section (SAMOP)
When: 5 – 10th March 2023 (Exhibition 7 – 9th March 2023)
Where: Booth 46, Leibniz Universität Hannover, Lichthof (Main Building), Germany

As the week has started at DPG SAMOP 2023 – Frühjahrstagung (DPG Spring Meeting) of the Atomic, Molecular, Quantum Optics and Photonics Section (SAMOP) we hope you come by and visit us at booth 46. Our knowledgeable sales colleagues are happy to respond to any questions you might have and give advice on how our lasers best can benefit your projects.

Presentation
Thursday 15:45 our sponsored PhD candidate Mitzi Urquiza-González will present their work on “High-resolution spectroscopy of exotic silver with a CW OPO injection-seeded PDA” featuring data generated using our C-WAVE tunable laser, so be sure to make a note in your calendar.

Exhibition venue
Leibniz Universität Hannover, Lichthof (Main Building),
Welfengarten 1, 30167 Hannover
Exhibition opening hours
Tuesday, March 7 10:30 – 19:00
Wednesday, March 8 10:30 – 19:00
Thursday, March 9 10:30 – 19:00
HÜBNER Photonics – Booth 46

DPG Spring Meetings 2023 text referencing HÜBNER Photonics presence at the event as visual image

Presentation

High-resolution spectroscopy of exotic silver with a CW OPO injection-seeded PDA

A 26.5 – Thursday 15:45 – F303 – Presented by Mitzi Urquiza-González

Mitzi Urquiza-González1 , Volker Sonnenschein1 , Omorjit S. Khwairakpam2 , Bram van den Borne3 , Michael Heines3 , Ágota Koszorús3 , Katerina Chrysalidis4 , Ruben P. de Groote3,5, Bruce Marsh4 , Korbinian Hens1 , and Klaus Wendt6 for the CRIS-Collaboration — 1Division HÜBNER Photonics, HÜBNER GmbH Co KG, Germany — 2 Istituto Nazionale di Fisica Nucleare LNL, Italy — 3KU Leuven, Belgium — 4CERN, Switzerland — 5University of Jyväskylä, Finland — 6 Johannes Gutenberg Universität, Germany

Short-lived radioisotopes are of special interest for nuclear structure studies, as their characteristic provide valuable reference points for theoretical predictions far from stability. By using lasers, hyperfine transitions can be accessed, allowing direct measurement of nuclear observables. For such high-resolution spectroscopy, narrow-band pulsed lasers can be created by the pulsed amplification of a cw seed laser, keeping the amplifier’s high power and short time profile whilst acquiring the seeder’s spectral properties. Spectroscopy on exotic Ag was performed at the CRIS experiment at CERN. A tunable CW single-mode OPO was employed as injection-seed for a two-stage pulsed dye amplifier. e hyperfine splitting of the ground-state 2 S1/2 to the level 2 PO3/2 was measured and the hyperfine coupling constants were determined. For this work, 111,117Ag are presented, showcasing this laser system’s applicability for future high-resolution spectroscopy studies.

Presentation abstract from DPG SAMOP schedule, A 26: Precision Spectroscopy of Atoms and Ions III (joint session A/Q) p. 79

2023-03-07T18:27:30+01:00
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