Superconducting Nanowire Detectors

Product Overview

Discover the cutting-edge technology of our superconducting nanowire detectors, designed for high-efficiency and low-noise performance.

Technical Specifications

Superconducting Nanowire Detectors

*Dependent on proper black-body filtering.

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System Specifications

500 MHz

Amplifier Bandwidth

55.6 dB

Gain (Typical)

< 40 ps

Jitter Contribution

50 Ω

AC Input/Output Impedance

100 kΩ

DC Bias Impedance

Features

Key Features

High Efficiency

Achieve over 90% system detection efficiency at 850 nm and 950 nm.

Customizable Solutions

Tailor detection efficiencies to your specific needs.

Advanced Architecture

Available in multi-element configurations for diverse applications.

Versatility

Choose devices with or without low-loss fiber pigtails.

Versatile Control

Front panel features for bias on/off, auto-bias, and more.

System Specifications

Explore Our Electronics

Our QO-SIM module offers stable electronic biasing and low-noise amplification, seamlessly integrating with the Stanford Research System SIM900 mainframe.

Precision Biasing

High-resolution, low-noise current source for precise control.

Efficient Amplification

Amplify detector outputs at room temperature.

Reliable Performance

Automated reset and latch detection ensure consistent operation.

User-Friendly

Easy front-panel controls and non-volatile memory for bias storage.

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Why Choose Our Detectors?

Our detectors operate at temperatures below 2.5 K, ensuring unparalleled sensitivity and precision. They are expertly aligned with optical fibers for maximum coupling efficiency, making them perfect for custom wavelengths and broadband applications.

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