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Valence Bond Theory02:42

Valence Bond Theory

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Coordination compounds and complexes exhibit different colors, geometries, and magnetic behavior, depending on the metal atom/ion and ligands from which they are composed. In an attempt to explain the bonding and structure of coordination complexes, Linus Pauling proposed the valence bond theory, or VBT, using the concepts of hybridization and the overlapping of the atomic orbitals. According to VBT, the central metal atom or ion (Lewis acid) hybridizes to provide empty orbitals of suitable...
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Chirality in Nature02:30

Chirality in Nature

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Chirality is the most intriguing yet essential facet of nature, governing life’s biochemical processes and precision. It can be observed from a snail shell pattern in a macroscopic world to an amino acid, the minutest building block of life. Most of the snails around the world have right-coiled shells because of the intrinsic chirality in their genes. All the amino acids present in the human body exist in an enantiomerically pure state, except for glycine - the sole achiral amino acid.
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Chirality02:25

Chirality

28.9K
Chirality is a term that describes the lack of mirror symmetry in an object. In other words, chiral objects cannot be superposed on their mirror images. For example, our feet are chiral, as the mirror image of the left foot, the right foot, cannot be superposed on the left foot.
Chiral objects exhibit a sense of handedness when they interact with another chiral object. For example, our left foot can only fit in the left shoe and not in the right shoe. Achiral objects — objects that have...
28.9K
Chirality at Nitrogen, Phosphorus, and Sulfur02:30

Chirality at Nitrogen, Phosphorus, and Sulfur

6.8K
Chirality is most prevalent in carbon-based tetrahedral compounds, but this important facet of molecular symmetry extends to sp3-hybridized nitrogen, phosphorus and sulfur centers, including trivalent molecules with lone pairs. Here, the lone pair behaves as a functional group in addition to the other three substituents to form an analogous tetrahedral center that can be chiral.
A consequence of chirality is the need for enantiomeric resolution. While this is theoretically possible for all...
6.8K
The Quantum-Mechanical Model of an Atom02:45

The Quantum-Mechanical Model of an Atom

56.4K
Shortly after de Broglie published his ideas that the electron in a hydrogen atom could be better thought of as being a circular standing wave instead of a particle moving in quantized circular orbits, Erwin Schrödinger extended de Broglie’s work by deriving what is now known as the Schrödinger equation. When Schrödinger applied his equation to hydrogen-like atoms, he was able to reproduce Bohr’s expression for the energy and, thus, the Rydberg formula governing hydrogen spectra.
56.4K
Spin–Spin Coupling: Two-Bond Coupling (Geminal Coupling)01:20

Spin–Spin Coupling: Two-Bond Coupling (Geminal Coupling)

1.6K
Two NMR-active nuclei bonded to a central atom can be involved in geminal or two-bond coupling. Geminal coupling is commonly seen between diastereotopic protons in chiral molecules and unsymmetrical alkenes, among others.
The central atom need not be NMR-active because its electrons are affected by the electron polarization of the spin-active atoms. However, spin information is transmitted less effectively than in one-bond coupling, and 2J values are usually weaker than 1J values. The energy of...
1.6K

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Updated: Jan 7, 2026

Scalable Quantum Integrated Circuits on Superconducting Two-Dimensional Electron Gas Platform
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量子幾何学によって駆動されたキラルフェルミオンバルブ

Anvesh Dixit1, Pranava K Sivakumar1, Kaustuv Manna2,3

  • 1Max Planck Institute of Microstructure Physics, Halle (Saale), Germany.

Nature
|December 31, 2025
PubMed
まとめ
この要約は機械生成です。

量子幾何学を用いたキラルフェルミオンバルブを開発し,磁場なしでキラル性によって粒子を分離した. 制御可能な量子干渉と 電流による磁化が可能になった

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科学分野:

  • 凝縮物質物理学
  • 量子材料について
  • トポロジカル・マター

背景:

  • トポロジカル・セミメタルには,対極のキラリティを持つフェルミオンがある.
  • チラル輸送には,典型的には,磁場またはドーパントが,キラル状態を分離する必要があります.
  • 既存の方法は,キラルフェルミオンを効果的に隔離し制御するのに苦労しています.

研究 の 目的:

  • フェルミオンをキラリティによってフィルタリングするために量子幾何学を利用する.
  • 磁場のない対極のキラル電流の 空間分離を証明する
  • 新しい機能を備えた キラルフェルミオニクバルブを 開発する

主な方法:

  • 単結晶のPdGaから装置を製造する.
  • キラルフェルミオンの異常速度を誘導するための量子幾何学の利用.
  • 空間的に分離されたキラル電流の量子干渉の観測.

主要な成果:

  • 反対のフェルミオニクキラリティを持つ電流のリアル空間分離を証明した.
  • 磁場がない場合の 量子干渉を観測した.
  • 量子幾何学による 異常速度による 非線形ホール効果を示した.

結論:

  • 開発されたキラルフェルミオンバルブは,量子幾何学を用いて,チェーン数によって空間的にフェルミオンを分離する.
  • この装置は,調節可能な電流誘発磁気を可能にします.
  • キラル準粒子の制御可能な量子干渉のためのプラットフォームを提供します.