Advances in Moiré Materials and Superconductivity
Moiré materials are formed by stacking two layers of a material. A slight twist is applied to the top layer, creating a moiré pattern. The pattern alters the material’s atomic arrangement, which leads to unique electronic properties.
Graphene and Superconductivity
Graphene is a single layer of carbon atoms, which exhibits remarkable electronic properties. Superconductivity in graphene-based materials was well-known. Superconductors conduct electricity without resistance. This phenomenon occurs at very low temperatures.
Discovery of Semiconductor Moiré Superconductors
Recent research revealed that tungsten diselenide (tWSe₂) can also be a superconductor. This finding was unexpected. Previously, superconductivity was thought to be exclusive to graphene. This behavior could unlock new quantum materials.
Twisting two layers of tWSe₂ by 3.65 degrees is crucial, which results in superconductivity. The twist modifies the electronic structure. It creates flat energy bands. Electrons in these bands have similar energy levels.
Cooper Pairs and Superconductivity
In flat bands, electrons move slowly. They are more likely to interact and form Cooper pairs. These pairs travel through the material without colliding with atoms. This phenomenon enables superconductivity, allowing lossless electricity flow.
Key Findings from Research
The study noted superconductivity at approximately –272.93º C. This temperature is similar to some high-temperature superconductors. The material can switch between conducting and insulating states. This is due to changes in its electronic properties.
Stability of Superconducting State
The semiconductor-based moiré material exhibits a stable superconducting state. Previous materials often lost superconductivity with temperature changes. This new discovery shows robustness in its superconducting properties.
This discovery opens avenues for studying superconductivity in semiconductor systems. It enhances understanding of how twisting 2D materials can yield new properties. Future research may lead to innovative applications in electronics and quantum computing.
Important Facts for Exams:
- Moiré Materials: Moiré materials are formed by stacking two layers of a material. A slight twist alters atomic arrangements. This leads to unique electronic properties and behaviours.
- Tungsten Diselenide (tWSe₂): Tungsten diselenide is a semiconductor that can exhibit superconductivity. This was unexpected, as superconductivity was thought exclusive to graphene-based materials. It opens new quantum material possibilities.
- Cooper Pairs: Cooper pairs are formed when electrons interact in flat energy bands. These pairs move without colliding with atoms. This interaction is crucial for enabling superconductivity and lossless electricity flow.
- Superconducting Transition Temperature: The superconducting transition in tWSe₂ occurs around –272.93º C. This temperature is comparable to some high-temperature superconductors. This material can switch between conducting and insulating states.
Month: Current Affairs - November, 2024
Category: Science & Technology Current Affairs