We announce the roll out of the QiB2, a versatile superconducting qubit platform, designed for exploring qubit coupling architectures with various levels of complexity - from the simplest to multi-qubit coupling schemes - all in one device.
www.einpresswire.com/article/8658...
The future of quantum computing depends not only on breakthroughs in algorithms and physics, but also on precision in chip design and packaging. Flip-chip integration is one of the keys to making that future a reality.
With this technology, we’re laying the foundation for future QiB (Qubit-in-a-Box) devices with significantly higher qubit counts—bringing us closer to practical, large-scale quantum processors.
www.con-science.se/webshop
we’re applying flip-chip integration alongside advanced techniques like air-bridges to support the development of next-generation quantum architectures. This allow us to move beyond planar constraints and fabricate devices that are both scalable and manufacturable.
Flip-chip is a key approach in 3D integration, enabling scale to higher qubit counts. By bonding chips face-down onto interposers or substrates, we achieve tighter interconnects and more efficient signal routing—both essential for building high-coherence, high-density quantum processors.
We’re proud to announce that the first batch of flip-chip integrated quantum devices from our Quantum Foundry service has been successfully delivered.
What is flip-chip packaging—and why does it matter for quantum computing?
Frequency Targeting In #superconducting quantum processors isn’t just a design detail — it’s a scaling bottleneck. Frequency crowding → higher gate error rates. Here we show how we work with this at con-science.se
We are hiring! please consider this oportunity for #nanofabrication engineer in #gothenburg #sweden #Quantum
www.linkedin.com/jobs/view/43...
Approximately 50 million people suffer from #sepsis yearly, and 13 million die from it, making rapid detection of bacteria crucial for development of more effective treatments.
The work applied a #microfluidic system replicated from molds made on 6 inch wafers using e-beam lithography precision fabrication to identify within 2 h, bacterial strands of #E.coli, #K.pneumoniae, or #E.faecalis in real human blood samples.
We would like to congratulate Wouter van der Wijngaart, Johan Elf and co-workers from @uu.se and @kthuniversity.bsky.social on publishing their work on "Culture-free detection of bacteria from blood for rapid sepsis diagnosis" in www.nature.com/articles/s41...
looks cool, let us know if you need someone to fab micro (or nano) fluidic components for this! we have more than 12 years of experience with fabrication of custom microfluidics
we are a CRO specialised in nanofabrication, and a good part of our work in micro and nanofluidics + electronics and quantum. Please let us know if we can be of any help in the fabrication.
The past two days have been incredible. It's inspiring to see the growing interest in our nanofabrication, quantum foundry services, and quantum devices.
If you haven’t stopped by yet, don’t miss your chance! Visit us at booth #843 See you!
#APS2025 #Quantum #Nanofabrication
We are on our way to #apsmarch2025 meeting in #california, meet us at booth #843 to discuss how we can help you in micro and nanofabrication.
😥it was made in 2012 as combination of “consultancy” and “science” we did not think of the “con science “ back then. 😥
Thanks to QSIP and all our partners and hosts in Singapore for making this initiative possible. Together, let’s shape the future of quantum technology!
#QuantumComputing #Innovation #SwedenSingapore
@vinnovase.bsky.social
ConScience is part of the #Swedish #quantum delegation heading to Singapore 11-14 March 2025
We are proud to contribute to this delegation, which is organized by the QuantumSweden Innovation Platform We’ll be engaging with #Singapore’s leading quantum organizations.
In this video, our nanofabrication engineer, Janka Biznarova shows how superconducting Qubit devices are fabricated.
www.youtube.com/watch?v=lymZ...
#quantum #nanofabrication #josephsonjunctions
#YearOfTheSnake #QuantumComputing #Innovation #ConScienceAB #QuantumTechnology
This year is particularly special as it marks the Year of Quantum Computing. We're excited about the limitless possibilities that lie ahead! Our flagship product, the Qubit-in-a-box 0 (QiB0), exemplifies our cutting-edge fabrication capabilities, achieving decoherence times (T1) of up to 250 µs.
As we celebrate the Year of the Snake, we're thrilled to share an image of our coplanar waveguide resonator—an integral part of our quantum technology at ConScience. Just as the snake symbolizes transformation and adaptability, our quantum solutions pave the way for groundbreaking advancements.
At ConScience, Janka will contribute with her expertise in nanofabrication, quantum device design, and device characterization to achieve our goals in qubit coherence and fidelity, accelerating the development of our quantum products.
With an academic background in chemical engineering and nanotechnology, Janka tackled the challenge of improving device coherence through fabrication process development, materials analysis, design optimization, and cryogenic microwave characterization.
We’re thrilled to welcome Janka Biznárová to the ConScience team!
Janka earned her PhD at Chalmers University of Technology, where she advanced the understanding of #decoherence mechanisms in #superconducting #quantum #circuits, including #transmonqubits and resonators.
Hammar, P. et al. Direct Measurement Of Transcription Factor Dissociation Excludes A Simple Operator Occupancy Model For Gene Regulation. Nature Genetics 2014, 46, 405-408.
www.nature.com/articles/ng....
Examples of Mother Machine Molds from ConScience can be found literature, including in
@science.org @natureportfolio.bsky.social
Jones, D. et al. Kinetics Of dCas9 Target Search In Escherichia Coli. Science 2017, 357, 1420-1424.
www.science.org/doi/10.1126/...
For the past 12 years, ConScienceAB
has excelled in the production of Mother Machine molds for numerous research groups at Universities such as @uumediacomms.bsky.social Harvard University, Oxford University, Cambridge, @ucsandiego.bsky.social
and many more.
You can read more about the Mother Machine concept and how to use it on the homepage of its inventor, prof.
@junlab.bsky.social t.co/TXt9iIt8Bt
