Físicos da Universidade de Pequim revelam ondas em formato de narval para confinamento de luz

21 de maio de 2026

Reportado por IA

Pesquisadores da Universidade de Pequim descobriram funções de onda com formato de narval que confinam a luz em escalas muito menores do que as anteriormente possíveis utilizando apenas materiais dielétricos. O avanço, detalhado em um artigo de 2025, evita as perdas de energia comuns em abordagens baseadas em metais e abre caminho para dispositivos fotônicos mais eficientes e imagens avançadas.

Físicos liderados por Ren-Min Ma desenvolveram uma equação de dispersão singular para permitir o confinamento extremo de luz sem o uso de metais. Em experimentos, eles criaram um ressonador dielétrico singular tridimensional que alcançou um volume de modo de 5 × 10-7 λ3. A varredura de campo próximo confirmou o aumento da lei de potência previsto perto da singularidade e o decaimento exponencial a distâncias maiores, correspondendo tanto à teoria quanto às simulações.

MIT builds terahertz microscope to observe quantum motions in superconductors

18 de março de 2026 Reportado por IA Imagem gerada por IA

Physicists at MIT have developed a new microscope using terahertz light to directly observe hidden quantum vibrations inside a superconducting material for the first time. The device compresses terahertz light to overcome its wavelength limitations, revealing frictionless electron flows in BSCCO. This breakthrough could advance understanding of superconductivity and terahertz-based communications.

Scientists uncover 48-dimensional topologies in quantum light

Researchers from the University of the Witwatersrand in South Africa and Huzhou University have discovered hidden topological structures in entangled photons, reaching up to 48 dimensions. These patterns emerge from the orbital angular momentum of light produced via spontaneous parametric downconversion. The findings, published in Nature Communications, suggest new ways to encode quantum information.

Physicists discover transdimensional quantum state in carbon material

29 de abril de 2026 Reportado por IA

Researchers at Nanjing University have identified a new quantum state of matter in a thin carbon material that electrons neither fully two-dimensional nor three-dimensional. The discovery, termed the transdimensional anomalous Hall effect, emerged unexpectedly during experiments in magnetic fields. Lei Wang and his team confirmed the phenomenon after a year of analysis.

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Japanese team develops method to detect quantum W states

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China unveils Jiuzhang 4.0 photonic quantum prototype

Researchers at the University of Science and Technology of China have developed the Jiuzhang 4.0 photonic quantum computing prototype, which manipulates 3,050 photons and sets a new record.

NYU scientists use light to control crystal formation

02 de março de 2026 Reportado por IA

Researchers at New York University have developed a method to direct the assembly of microscopic particles into crystals using light. This technique, detailed in the journal Chem, allows for real-time control over crystal growth and dissolution. The approach could enable new responsive materials for applications in optics and photonics.

terça-feira, 19 de maio de 2026, 19:21h