The superconducting diode effect allows for nonreciprocal, dissipationless transport. It has the potential to enhance transfer current efficiency compared to the traditional semiconducting equivalent ...

Magnesium diboride (MgB2) superconducting magnets represent a transformative advance in magnetic resonance imaging (MRI) technology. Owing to its relatively higher superconducting transition ...

Superconducting crystals are a class of materials that exhibit the remarkable property of zero electrical resistance below a critical temperature (Tc). These crystalline solids leverage quantum ...

An international team has pioneered a nano-3D printing method to create superconducting nanostructures, leading to groundbreaking technological advancements. A new study demonstrates the creation of ...

There are currently several superconducting materials used for design and fabrication of high-field magnets. 1 The most widely established of them—low-temperature superconductor NbTi—is the workhorse ...

Engineers have designed and synthesized a groundbreaking new material -- a copper-free superconducting oxide -- capable of superconducting at approximately 40 Kelvin, or about minus 233 degrees ...

Airbus is aiming to advance the use of superconducting technology for propulsion in a future hydrogen-powered aircraft through a new demonstrator. The Cryoprop demonstrator will feature a ...

Prof Ariando (middle) with Dr Stephen Lin Er Chow (extreme right) and Zhaoyang Luo (extreme left) were part of the research team that designed the new copper-free superconducting material. Professor ...