Phase masks [수정중] ID281 Superconducting Nanowire Series
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ID281 Superconducting Nanowire Serie
The very best in single-photon detection, with ultra-stable performance
> Near-ideal detection efficiency: can exceed 95%
> Highly precise timing and low noise, true latch-free operation
> Ultrafast and photon-number resolving detection
> Mix and match up to 16 detectors, with options for rack-mounted systems
Overview | Specifications | Applications | Resources |
Push your photonic experiments and applications to new heights with our Swiss-made superconducting nanowire single-photon detectors (SNSPDs), combining incredibly high detection efficiency, timing precision, low noise, and fast recovery time.
Mix and match up to 16 detectors in a single ID281 system. Choose from our Standard, Parallel, and Multi-Pixel detector designs with a range of user-customizable specifications for the best performance in your desired application.
For added convenience and mobility, the full ID281 system is available in a range of self-contained rack-mounted solutions.
Get the best out of your photonic experiments and applications with the ID281 Superconducting Nanowire Series today.
Learn more about Superconducting Nanowire Single-Photon Detectors in our SNSPD Technology Spotlight.
What’s New
> Detectors with > 80% system detection efficiency and > 1 cps dark count rate at 1550 nm
> High efficiency at < 600 nm and > 2 μm
> New detector designs for improved photon-number resolution and ultrafast detection – watch our video podcast for more information
Key Features
> Near-perfect detection efficiency: can exceed 95%
> Ultra-low noise: as low as < 1 cps dark count rate
> Superb precision with built-in cryogenic amplifiers: as low as < 25 ps timing jitter
> Mix and match up to 16 detectors, upgrade any time
> High count rates: ultrafast detectors with maximum detection rates above 100 Mcps for parallel devices, and above 1 Gcps for multi-pixel devices
> Hardware-based true latch-free operation at any detection rate
> True 24/7 continuous operation (CO system)
> Extended system lifetime through periodic automated helium recycling (SO system)
> Reliable and robust performance, with worldwide round-the-clock technical support included
> OPTIONAL:
> Self-contained rack-mounted systems
> Advanced time-tagging, coincidence filtering and delay/pulse generation
Detectors for any occasion
The ID281’s single-photon detectors are Swiss-made SNSPDs featuring high detection efficiency, low jitter, low noise, and short recovery time. The detectors (between 2 and 16 SNSPDs in one cryogenic system) are integrated into an automated closed-cycle cryostat, providing ease-of-use and unrivalled device performance for long-term multi-year operation.
ID281 Standard SNSPD: A single SNSPD with a linear nanowire meander, offering excellent overall performance in terms of system detection efficiency, detector noise, and timing precision. A polarization-insensitive version with a spiral meander is also available.
ID281 Parallel SNSPD:Several interleaved SNSPD pixels connected in parallel on a single readout line, offering ultrafast detection and photon-number resolution. These detectors accurately discriminate multiphoton states and achieve detection rates as high as 100 Mcps in some situations, while still benefiting from the efficiency, precision, noise performance and broadband operation of the ID281 SNSPD range.
ID281 Multi-Pixel SNSPD: Several independent SNSPD pixels each with their own readout lines, offering even faster detection rates > 1 Gcps and ‘dynamic’ PNR robust to longer pulse durations, while still benefiting from the efficiency, precision, noise performance and broadband operation of the ID281 SNSPD range.
A complete package
With performance derived from their superconducting material — operating at cryogenic temperatures — ID281 SNSPDs are delivered in a turnkey cryogenic system, tailored to your needs.
Additionally, the analogue detection pulses must be turned into digital information, meaning the fastest and most precise timing instrumentation is a must-have.
IDQ delivers all this and more, making it the most complete and versatile SNSPD system around.
> Rack mounting customization for safety and mobility
> ID281 Control Box for plug-and-play operation
> ID1000 Time Controller for ultrafast ultra-precise data acquisition
Fiber Fusion Splicers and Processing Equipment
horlabs' Vytran® product family is designed for fusion splicing, optical fiber processing, and end face geometry inspection. To create splices with high optical quality and mechanical strength, these tools perform a series of tasks, including stripping, cleaning, cleaving, splicing, recoating, and proof testing. The GPX Series Glass Processors can splice fibers or end caps and shape fibers into tapers, ball lenses, couplers/combiners, or other kinds of custom terminations. We also offer a laser cutter and an epoxy curing oven for connector preparation. Our visual inspection system and scanning white-light interferometers (SWLI) enable detailed measurements of the connector end face for inspection and quality-control applications.
Use the key below to determine which tools are appropriate for your application.
OCT Imaging Systems & Components
Thorlabs provides solutions for the field of Optical Coherence Tomography (OCT) imaging on the system, subsystem, and component level. Our drive for innovation is shaping our entire rapidly expanding product line. Complete spectral-domain, swept source, and polarization-sensitive OCT systems are available that are out-of-the-box ready for biological, industrial, and research applications. For customers building or modifying their own system, a line of components that have been tested for use in OCT applications is available.
OVERVIEW |
OCT Systems for OEM Applications
SD-0CT |
Ganymede™ Series OCT Systems and Components
Wavelength | Output power | Typical tuning range | Typical mode-hop-free tunability | Typical line width 5㎲) | |
MDL pro | 4 out of 369... 1770 nmW | Up to 160mW | 2 .. 100 nm | 20Ghz / 1000Ghz | 10 .. 4000 kHZ |
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