Flexible Thinking: The Key to a Successful Flex Circuit Design Transfer
Happy’s Tech Talk #29: Bend-to-Install Semi-flex FR-4
Designer Materials with Completely Random Structures Might Enable Quantum Computing
June 5, 2018 | Aalto UniversityEstimated reading time: 1 minute
Designing quantum materials with exotic and unprecedented electrical properties has the field of physics teeming with buzz. Researchers at Aalto University in Finland have now introduced a significant turn in this discussion by developing an amorphous material which exhibits topological superconductivity. Until this point, these materials have required highly regular structures to show desired electrical properties.
The findings, published in Nature Communications, bring the field one step closer to application. Topological superconductors and insulators are considered to be possible building blocks of lossless components for quantum computers. While topological superconductors might not exist in nature, they can be fabricated, as the study demonstrates.
‘We have presented a method of fabricating topological materials in amorphous systems with randomly placed constituents. This means we can achieve superconductivity in the material by sprinkling magnetic atoms on a superconducting surface completely at random, not in highly-defined and ornamented lattices, for example,’ explains doctoral student Kim Pöyhönen.
The recent boom on topological superconductors stems mainly from an unconventional quantum-level phenomenon, a collective movement of many individual particles called Majorana fermion excitations. They have been envisioned as critical ingredients of topological quantum computers.
‘Getting highly irregular, random systems to work as topological superconductors will potentially make their fabrication and manufacture much more convenient compared to current methods,’ says research group leader, Docent Teemu Ojanen.
Perhaps for now, the implications of the random quantum material verge only on fundamental research, but that might not be the case for much longer.
‘For topological quantum matter to find its way to actual applications, it’s imperative we find even more new candidates for amorphous topological materials,’ states Ojanen.
Share on:
Suggested Items
NUS Physicists Discover a Copper-free High-temperature Superconducting Oxide
03/28/2025 | PRNewswireProfessor Ariando and Dr Stephen Lin Er Chow from the National University of Singapore (NUS) Department of Physics have designed and synthesised a groundbreaking new material—a copper-free superconducting oxide—capable of superconducting at approximately 40 Kelvin (K), or about minus 233 degrees Celsius (deg C), under ambient pressure.
Indium to Showcase Proven EV Products and High-Reliability Alloys at Productronica China
03/26/2025 | Indium CorporationAs a global materials supplier and trusted partner in electric vehicle (EV) and e-Mobility manufacturing, Indium Corporation® is proud to showcase its high-reliability alloys and soldering solutions at Productronica China, March 26-28, in Shanghai, China.
Queen's University Belfast Enhances RF Research with LPKF ProtoLaser R4
03/26/2025 | LPKFThe Centre for Wireless Innovation (CWI) at Queen's University Belfast relies on the state-of-the-art LPKF ProtoLaser R4 to conduct RF research with high-precision structuring of sensitive materials.
SolderKing Enhances Brainboxes' Electronics Manufacturing with Expert Support and Advanced Materials
03/26/2025 | SolderKingIn modern electronics manufacturing, success relies on more than high-quality soldering materials. Technical knowledge and process expertise are just as crucial for achieving consistent results. SolderKing, a leading UK manufacturer, provides both, combining advanced consumables with specialist support to help manufacturers optimise their soldering processes.
Global PCB Connections: A Field Engineer’s Perspective on the Top 10 Trends to Watch
03/27/2025 | Jerome Larez -- Column: Global PCB ConnectionsAs a field application engineer for a major Chinese PCB company, I see firsthand the challenges and, more excitingly, the trends shaping our industry. Talking to engineers, designers, and procurement teams worldwide, one thing is clear: PCBs have come a long way, but we’re barely scratching the surface of what’s possible. Here are 10 trends I believe will define our industry over the next decade.