Superconducting Nanowire Electronics
Superconducting Nanowire ElectronicsProduct Overview
Discover the advanced features of our superconducting nanowire electronics, designed for stable electronic biasing and low-noise amplification. The QO-SIM module integrates seamlessly into the Stanford Research System SIM900 mainframe, offering precision and control for your experimental needs.
Why Choose QO-SIM?
Superconducting nanowire single-photon detectors require reliable biasing and amplification. Our QO-SIM module provides both, with the added convenience of push-button operation directly from the mainframe.
System Specifications500 MHz
Amplifier Bandwidth
55.6 dB
< 40 ps
Jitter Contribution
50 Ω
AC Input/Output Impedance
100 kΩ
DC Bias Impedance
FeaturesKey Features
Precision Biasing
High-resolution, low-noise bias current source optimized for nanowire detectors.
Efficient Amplification
Room-temperature amplification of raw detector outputs.
Reliable Performance
Includes latch detection and automated reset for uninterrupted operation.
Memory Storage
Non-volatile memory for bias current storage and recall.
Low Jitter Contribution
Ensures high precision in photon detection.
Remote Control
Power and serial communication via the SIM900 mainframe.
Versatile Control
Front panel features for bias on/off, auto-bias, and more.
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