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相关概念视频

Phase Transitions02:31

Phase Transitions

23.2K
Whether solid, liquid, or gas, a substance's state depends on the order and arrangement of its particles (atoms, molecules, or ions). Particles in the solid pack closely together, generally in a pattern. The particles vibrate about their fixed positions but do not move or squeeze past their neighbors. In liquids, although the particles are closely spaced, they are randomly arranged. The position of the particles are not fixed—that is, they are free to move past their neighbors to...
23.2K
Phase Transitions: Sublimation and Deposition02:33

Phase Transitions: Sublimation and Deposition

20.2K
Some solids can transition directly into the gaseous state, bypassing the liquid state, via a process known as sublimation. At room temperature and standard pressure, a piece of dry ice (solid CO2) sublimes, appearing to gradually disappear without ever forming any liquid. Snow and ice sublimate at temperatures below the melting point of water, a slow process that may be accelerated by winds and the reduced atmospheric pressures at high altitudes. When solid iodine is warmed, the solid sublimes...
20.2K
Phase Transitions: Melting and Freezing02:39

Phase Transitions: Melting and Freezing

15.2K
Heating a crystalline solid increases the average energy of its atoms, molecules, or ions, and the solid gets hotter. At some point, the added energy becomes large enough to partially overcome the forces holding the molecules or ions of the solid in their fixed positions, and the solid begins the process of transitioning to the liquid state or melting. At this point, the temperature of the solid stops rising, despite the continual input of heat, and it remains constant until all of the solid is...
15.2K
Phase Transitions: Vaporization and Condensation02:39

Phase Transitions: Vaporization and Condensation

21.4K
The physical form of a substance changes on changing its temperature. For example, raising the temperature of a liquid causes the liquid to vaporize (convert into vapor). The process is called vaporization—a surface phenomenon. Vaporization occurs when the thermal motion of the molecules overcome the intermolecular forces, and the molecules (at the surface) escape into the gaseous state. When a liquid vaporizes in a closed container, gas molecules cannot escape. As these gas phase molecules...
21.4K
Properties of Transition Metals02:58

Properties of Transition Metals

29.9K
Transition metals are defined as those elements that have partially filled d orbitals. As shown in Figure 1, the d-block elements in groups 3–12 are transition elements. The f-block elements, also called inner transition metals (the lanthanides and actinides), also meet this criterion because the d orbital is partially occupied before the f orbitals.
29.9K
Phase Diagrams02:39

Phase Diagrams

50.2K
A phase diagram combines plots of pressure versus temperature for the liquid-gas, solid-liquid, and solid-gas phase-transition equilibria of a substance. These diagrams indicate the physical states that exist under specific conditions of pressure and temperature and also provide the pressure dependence of the phase-transition temperatures (melting points, sublimation points, boiling points). Regions or areas labeled solid, liquid, and gas represent single phases, while lines or curves represent...
50.2K

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Updated: Feb 5, 2026

Three-Dimensional Phase Resolved Functional Lung Magnetic Resonance Imaging
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Three-Dimensional Phase Resolved Functional Lung Magnetic Resonance Imaging

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磁可切换的铁弹性相位过渡在二维多重铁中.

Xu Wang1, Yangyang Feng1, Kaiying Dou1

  • 1School of Physics, State Key Laboratory of Crystal Materials, Shandong University, Jinan, P. R. China.

Small (Weinheim an der Bergstrasse, Germany)
|February 4, 2026
PubMed
概括
此摘要是机器生成的。

研究人员在2D反铁磁多铁中发现了磁可切换的铁弹性. 这一突破将磁化变化与铁弹性偏振切换联系起来,为新型设备应用铺平了道路.

关键词:
两维材料是二维材料.第一个原则是计算计算.可转换磁性的铁弹性.多种铁路的多种铁路螺旋格子合器的螺旋格子合器

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Phase Diagram Characterization Using Magnetic Beads as Liquid Carriers
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科学领域:

  • 凝聚物质物理学 凝聚物质物理学
  • 材料科学是一种材料科学.
  • 多重铁路的研究研究.

背景情况:

  • 多铁合对基础科学和设备至关重要.
  • 磁电效应得到了很好的研究,但控制铁弹性合仍然是一个挑战.

研究的目的:

  • 报告和调查磁可切换的铁弹性.
  • 探索2D多铁力中自旋格子合的基础物理.
  • 为了证明磁力对铁弹性有控制权.

主要方法:

  • 旋转格子合的理论研究.
  • 第一原则计算.第一原则计算.
  • 对2D反铁磁多铁网进行分析.

主要成果:

  • 在2D反铁磁多铁铁网中证明了磁可切换的铁弹性.
  • 通过齐克扎克反铁磁交换确定了自旋晶格合作为关键机制.
  • 通过120°铁弹性观察到铁弹性极化强大的磁性控制.
  • 在多铁单层FePS3中验证了效果.

结论:

  • 这项研究揭示了一条用于磁性控制铁弹性秩序的新途径.
  • 这些发现为设计具有可调节性质的多铁材料开辟了新的途径.
  • 这项工作推进了对超越磁电效应的多铁合的理解.