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Chirality02:25

Chirality

30.6K
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...
30.6K
Chirality in Nature02:30

Chirality in Nature

17.4K
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.
17.4K
Chirality at Nitrogen, Phosphorus, and Sulfur02:30

Chirality at Nitrogen, Phosphorus, and Sulfur

7.1K
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...
7.1K
Symmetry in Maxwell's Equations01:28

Symmetry in Maxwell's Equations

4.3K
Once the fields have been calculated using Maxwell's four equations, the Lorentz force equation gives the force that the fields exert on a charged particle moving with a certain velocity. The Lorentz force equation combines the force of the electric field and of the magnetic field on the moving charge. Maxwell's equations and the Lorentz force law together encompass all the laws of electricity and magnetism. The symmetry that Maxwell introduced into his mathematical framework may not be...
4.3K
Potential Due to a Polarized Object01:29

Potential Due to a Polarized Object

843
A neutral atom consists of a positively charged nucleus surrounded by a negatively charged electron cloud. When placed in an external electric field, the external electric force pulls the electrons and nucleus apart, opposite to the intrinsic attraction between the nucleus and the electrons. The opposing forces balance each other with a slight shift between the center of masses of the nucleus and the electron cloud, resulting in a polarized atom. On the other hand, a few molecules, like water,...
843
π Electron Effects on Chemical Shift: Aromatic and Antiaromatic Compounds01:14

π Electron Effects on Chemical Shift: Aromatic and Antiaromatic Compounds

2.0K
In aromatic compounds, such as benzene, the circulation of (4n + 2) π-electrons sets up a diamagnetic or diatropic ring current around the perimeter of the molecule. This current induces a magnetic field that opposes the external field inside the ring and reinforces it on the outside. The protons in benzene are deshielded and exhibit high chemical shifts in the range 6.5–8.5 ppm. The shielding effect at the center of the ring is evident in complex aromatic molecules, such as...
2.0K

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Related Experiment Video

Updated: Feb 28, 2026

Optimized Fabrication Procedure for High-Quality Graphene-based Moiré Superlattice Devices
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Optimized Fabrication Procedure for High-Quality Graphene-based Moiré Superlattice Devices

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Quantized chiral anomaly materials cloak.

Lunwu Zeng1, Runxia Song2

  • 1Jiangsu Key Laboratory of Intelligent Agricultural Equipment, College of Engineering, Nanjing Agricultural University, Nanjing, 210031, China. 163.sin@163.com.

Scientific Reports
|June 14, 2017
PubMed
Summary
This summary is machine-generated.

Chiral anomaly materials enable novel cloaking devices. These materials can cloak electric fields and induce magnetic fields, or vice versa, leading to potential applications in advanced electromagnetic technologies.

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Area of Science:

  • Condensed Matter Physics
  • Quantum Materials
  • Electromagnetism

Background:

  • Chiral anomaly materials (CAM) exhibit unique quantum states like axion insulators and topological insulators.
  • CAM demonstrate the anomalous Hall effect, intrinsically linked to the topological magnetoelectric effect.
  • This effect allows for mutual induction of electric and magnetic fields under applied fields.

Purpose of the Study:

  • To design and theoretically validate cloaking devices utilizing chiral anomaly materials.
  • To explore the capabilities of electric and magnetic cloaks based on CAM.
  • To investigate the generation of magnetic monopoles using these cloaking systems.

Main Methods:

  • Theoretical design of an electric cloak using quantized CAM and a conductor.
  • Theoretical design of a magnetic cloak using quantized CAM and a superconductor.
  • Electromagnetic simulations and calculations to verify cloaking performance.

Main Results:

  • The designed electric cloak successfully cloaks an applied electric field and induces a magnetic field.
  • The designed magnetic cloak successfully cloaks an applied magnetic field and induces an electric field.
  • Application of an electric field from a point charge resulted in the observation of a magnetic monopole.

Conclusions:

  • Quantized chiral anomaly materials offer a pathway to creating effective electric and magnetic cloaking devices.
  • These cloaks demonstrate the principle of field induction and cloaking, with potential for advanced electromagnetic applications.
  • The study confirms the possibility of generating magnetic monopoles through engineered electromagnetic responses in CAM-based systems.