Purchasing Advisor for Lasers for Quantum Photonics (original) (raw)

Find all you need for professional sourcing of lasers for quantum photonics: a comprehensive expert-curated directory of suppliers, scientific and technical background information, and an interactive AI-based tool with guidance for a structured decision process.

NEW: Not only hardware can be listed here, but also consulting, software, training on lasers for quantum photonics, etc. – see the "offer types" below.

🌐 You appear to be visiting from North America. Many listed suppliers are based in this region, making the RP Photonics Buyer's Guide highly relevant for your needs.

Purchasing high-value photonics products is a substantial responsibility. Using a structured decision-making process and high quality supplier data helps a lot:

• Find all relevant suppliers (not limited to advertisers).
• Our interactive tool conveniently assists you in defining and applying your application-specific requirements.

Note that purchasing decisions based on just a few randomly picked suppliers and without carefully defined specifications are risky; therefore, we strongly recommend using our data and tool. See also:

• How Responsible Purchase Decisions for Expensive Goods Like Lasers Are Done
• Explanations on this purchasing tool

Go through the process:

1. Understand the technical background

It is important to sufficiently understand the technology before buying.

Use the comprehensive learning resources of RP Photonics:

lasers for quantum photonics

If you need personal help, contact RP Photonics to get technical consultancy.

I feel that I sufficiently understand the technical background.

2. Define your requirements

It is essential to fully understand and clearly define your requirements before you purchase.

We recommend that you develop a list of clear specifications according to your specific needs, against which you can later check the suitability of found product offers:

To help you, we have already listed some aspects we recommend you consider when buying lasers for quantum photonics. Of course, there may be other aspects that are relevant to your specific case.

This list is for your own preparation, and can later (possibly in modified form) be used for quotation requests to suppliers.

I think that I am sufficiently informed about our requirements.

Otherwise, you will need to talk to your technical colleagues.

I consider the above list of specifications to be sufficiently complete, clear and accurate.

If you cannot sufficiently clarify your requirements, you may want to get technical consultancy from RP Photonics.

Insert these criteria when creating inquiry mails to suppliers with the buttons "Get quotation".

You find these buttons in the supplier list below or under "3. Find suitable suppliers".

3. Find suitable suppliers

We suggest three steps:

• Below, you can find our list of suppliers for lasers for quantum photonics. Use the checkboxes to mark possibly suitable suppliers.
• The selected suppliers will appear below this list, along with your list of specifications. You can then indicate which specifications they meet according to your research. (You should finalize your specifications before doing this.)
• Based on the results, you can finally choose a supplier that is hopefully a good enough fit.

Selected suppliers:

(none so far)

Decision

The most suitable supplier you found:

Comments, e.g. reasons for your choice, or things which still need to be checked:

4. Document the decision process

It is essential to document your purchasing process, not only its result (chosen supplier):

• You will find it easier next time.
• If something goes wrong, you can defend your decision by showing that you properly considered all important aspects. Or you see what needs to be done better next time.

Our interactive tool makes it easy: Fill out the form, and in the end print it to a PDF. Note that the document will show all sections (including those not currently shown on the screen), while omitting some irrelevant details such as the page navigation.

Suppliers for Lasers for Quantum Photonics

13 suppliers for lasers for quantum photonics are listed in the RP Photonics Buyer's Guide, out of which 7 present their product descriptions and images. Both manufacturers and distributors can be registered.

BOOST your LAB work with simplicity! SILENTSYS SAS10 rue Xavier BichatZone université72000 Le MansFrance

⚙ hardware The SLIM LINER — a high spectral purity laser source — is a single-frequency, ultra-narrow linewidth laser that is based on a Self-Adaptive Photonic Oscillator (SAPO) technology developed by the Institut Foton at Université de Rennes in France. A pump laser is optically locked onto a cavity using stimulated Brillouin scattering that offers an extremely narrow gain bandwidth, naturally favoring a high spectral purity, with a frequency noise as low as 0.0005 Hz²/Hz at 200 kHz Fourier frequency. Product-specific web page

HÜBNER Photonics GmbHWilhelmine-Reichard Strasse 634123 KasselGermanySee us at BiOS 2026 in San Francisco, January 17 – 18 (booth 8381) and Photonics West 2026 in San Francisco, Jan. 20–22 (booth 3381)!

⚙ hardware HÜBNER Photonics specializes in advanced laser systems designed for quantum technology applications, offering a range of high-performance lasers that meet the rigorous demands of quantum-sensor based experimental setups and other sophisticated uses: The Cobolt 06-01 Series features a selection of fixed wavelength diode laser modules (MLD) and diode-pumped lasers (DPL) across a broad wavelength spectrum. These compact, plug-and-play lasers are equipped with high-speed direct modulation and true off capabilities during modulation, making them suitable for bioimaging and quantum technology applications. The C-WAVE tunable laser is ideal for testing the quality of artificially grown structures with color centers for quantum applications. It offers extensive spectral coverage from 450 nm to 3.5 µm, a narrow linewidth of less than 1 MHz, mode-hop-free tunability, high output power up to several hundred milliwatts, and a nearly perfect Gaussian beam profile. For more detailed specifications and potential applications, please visit our website. Product-specific web page

Engineering on Your Wavelength Covesion Ltd.Unit F3, Adanac NorthAdanac DriveNursling, Southampton SO16 0BTUnited KingdomSee us at Photonics West 2026 in San Francisco, Jan. 20–22 (booth 3672)!

⚙ hardware Covesion manufactures a turn-key Locked Laser System at 1560 nm / 780 nm with spectrally pure output at powers of up to 1 W for Rb atom applications including quantum sensing, timing and computing. Key features: Narrow linewidth Turnkey system that automatically provides locked, offset frequency output Rb spectroscopic cell for absolute frequency reference Output beam is not part of the locking process DC seed offset to maintain lock provides stronger lock and spectrally pure output User selectable offset of output frequency from reference frequency Option for fast modulation of output Long-term, high stability frequency output 1560 nm or/and 780 nm outputs available Up to 1 W output at 780 nm Product-specific web page

Helping our customers reach their research @ commercial goals for over 45 years MPB CommunicationsHead Office147 Hymus BoulevardMontreal, Quebec H9R 1E9CanadaSee us at Photonics West 2026 in San Francisco, Jan. 20–22 (booth 4823)!

⚙ hardware MPBC has been a leading innovator in the design and development of single frequency lasers with novel atomic transition frequencies for applications in atomic physics, quantum mechanics and metrology. These lasers adhere to stringent requirements including narrow linewidth, low Intensity and phase noise, and the excellent wavelength stability necessary for these applications. Novel wavelengths and unsurpassed output powers have been developed for world-renowned research centers and universities, which require innovative and leading-edge solutions. Product-specific web page

Innolume GmbHKonrad-Adenauer-Allee 1144263 DortmundGermanySee us at Photonics West 2026 in San Francisco, Jan. 20–22 (booth 4422)!

⚙ hardware Innolume’s gain-chips and Distributed Feedback (DFB) lasers, covering a broad 765–1360 nm wavelength range, are optimized for the stringent demands of quantum photonics, offering stable, narrow-linewidth, single-frequency emission, which is critical for high-fidelity quantum systems. Gain chips feature deep anti-reflective coatings to suppress self-lasing, enabling precise wavelength control when integrated into external cavity setups such as Littrow or Littman/Metcalf designs — ideal for tunable quantum light sources. DFB lasers provide fixed-wavelength, single-mode output with linewidths ~1 MHz, <0.1 nm tuning precision via current and temperature control, and side-mode suppression ratios up to 55 dB, ensuring exceptional spectral purity. Both device types are available with fiber-coupled options, including polarization-maintaining or single-mode fiber, 900 µm loose tube, and a variety of standard connectors. Product-specific web page

Irisiome SolutionsCité de la PhotoniqueBât Elnath11 avenue de Canteranne33600 PessacFrance	⚙ hardware The PEACHES series is a compact, turnkey laser for quantum technologies, offering femtosecond to picosecond pulses with GHz-range tunability. With support for arbitrary pulse sequences, external synchronization, and standard wavelengths like 920 nm or 1550 nm, it is an ideal source for advanced quantum experiments. Product-specific web page

all wavelengths. TOPTICA Photonics SELochhamer Schlag 1982166 GräfelfingGermanySee us at BiOS 2026 in San Francisco, January 17 – 18 (booth 8603, 8501) and Photonics West 2026 in San Francisco, Jan. 20–22 (booth 3603, 3501, 4713)!	⚙ hardware TOPTICA's products provide an ultra-broad laser wavelength coverage: 190 nm — 0.1 THz (corresponding to 3 mm). They enable a big variety of demanding applications in quantum optics, spectroscopy, biophotonics, microscopy, test & measurement, as well as materials inspection. all wavelengths. From 190 nm to 0.1 THz Product-specific web page

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