<< Multipixel superconducting nanowires offer a potential solution, promising to double both the imaging depth and resolution in light microscopy >> states Sander Dorenbos.

In this article, Single Quantum’ CEO and coordinator of the EU project BRAINIAQs, explains how researchers implemented SQCam in a multi-photon microscope, conducting in vitro and in vivo bioimaging experiments.
🔎 Read the article here

What is SQCam? 📹
SQCam is our free-space coupling solution for imaging, a cryostat with an optical window capable of hosting an SNSPD array of up to 48 pixels!

Learn more about SQCam:
🔗 https://lnkd.in/eHm3axDW

SQCam

Exciting news!💥

We can finally show the successful integration of an SNSPD-based single photon array detector into a multi-photon microscope.🔬
This innovative development has made it possible to conduct two- and three-photon microscopy experiments with emission in the near-infrared, expanding the detection window.
💡With this, we expect to push the achievable imaging depth.

We are thrilled to be part of this exciting achievement that will advance our understanding of the world around us.
🔎 Stay tuned for more updates from Brainiaqs as we continue to push the boundaries of scientific exploration.

 


New multipixel array of superconducting nanowire single-photon detectors

Single Quantum is at the forefront of cutting-edge technology development as part of the EU-funded project, BRAINIAQs.

Introducing our latest innovation: a multipixel array of superconducting nanowire single-photon detectors (SNSPDs). These state-of-the-art detectors hold immense potential for revolutionizing bioimaging.

✨ With BRAINIAQs, we are pushing the boundaries of quantum sensors in the field of bioimaging. The development of bioimagers with single photon sensitivity is set to be a game changer in the near future.


Cryogenic multi-LNA chip for quantum sensors for Bioimaging

🔬Exciting news! VTT has achieved a significant milestone as part of the EU project Brainiaqs.

Introducing our latest development: a compact, low-power, low-noise multi-LNAs (Low-Noise Amplifiers) integrated on a single SiGe chip. This breakthrough technology holds great potential for various industries.

🌍 Through collaboration in the Brainiaqs project, we're driving innovation in electronic design and pushing the boundaries of what's possible. Our multi-LNAs offer impressive performance, combining efficiency, low noise levels, and a compact design.

Stay tuned for more updates as we continue to make strides in advancing el

ectronics.