Summary First Room-Temperature Ambient-Pressure Superconductor Synthesis arxiv.org
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Researchers have successfully created the first superconductor that operates at room temperature and ambient pressure, called LK-99, with a critical temperature exceeding 400 K and non-uniform resistivity.
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Key Points
- Researchers have synthesized the first room-temperature superconductor, LK-99, that works at ambient pressure.
- LK-99 has a critical temperature estimated to be over 400 K.
- The material is composed of lead-apatite and has a gray-black color with a three-dimensional network structure.
- Several scientific studies have explored different aspects of superconductivity and related phenomena, including nodeless pairing in superconducting copper-oxide monolayer films and strain-induced superconductivity.
- The synthesis of LK-99 was supported by the National Research Foundation of Korea and a Korea University Grant, led by Sukbae Lee and Ji-Hoon Kim.
Summaries
23 word summary
Researchers have synthesized the first room-temperature superconductor, LK-99, which operates at ambient pressure with a critical temperature over 400 K and non-uniform resistivity.
32 word summary
Researchers have successfully synthesized the first room-temperature superconductor, LK-99, which works at ambient pressure. LK-99 has a critical temperature estimated to be over 400 K and exhibits non-uniform resistivity. It is composed
278 word summary
Researchers have successfully synthesized the first room-temperature superconductor that works at ambient pressure. The superconductivity of the material, called LK-99, is proven through various measurements such as critical temperature, zero-resistivity, critical current,
The critical temperature of LK-99 is estimated to be over 400 K. The non-uniform resistivity of the bulk samples can be explained by inter-grain boundaries and intergranular vortex flow. The Josephson-like phenomenon and thermoe
The text describes the synthesis of the first room-temperature ambient-pressure superconductor, LK-99. LK-99 is a gray-black superconductor with a three-dimensional network structure. It is composed of lead-apatite and has
This summary provides a concise version of the excerpted text, highlighting key points and preserving important details. The summary is organized into separate paragraphs to distinguish distinct ideas for readability, while retaining the original order in which ideas were presented.
Several studies have explored the
This document contains a list of references that are relevant to the topic of room-temperature ambient-pressure superconductors. The references include studies on the behavior of high-Tc superconductors, the origin of hysteresis in Josephson junctions
Several scientific studies have explored different aspects of superconductivity and related phenomena. In one study (36), researchers investigated nodeless pairing in superconducting copper-oxide monolayer films. Another study (37) explored strain-induced superconductivity in
This summary discusses the synthesis of the first room-temperature ambient-pressure superconductor. The authors reference several sources that have contributed to the understanding and development of superconductors, including studies on electron correlation, microwave absorption in high-temperature superconducting
The study on the first room-temperature ambient-pressure superconductor synthesis was supported by the National Research Foundation of Korea and a Korea University Grant. The project was led by Sukbae Lee, with Ji-Hoon Kim responsible for LK-99