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相关概念视频

Oral Cavity01:11

Oral Cavity

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The oral cavity, or the mouth, is a complex structure in humans that plays a vital role in our day-to-day lives. Its role is not only in chewing and swallowing food; it also plays a role in speech and facial expressions.
Teeth: The teeth are the hardest structures in our bodies. Humans have two sets of teeth throughout their lifetime: deciduous (baby) teeth and permanent teeth. Each tooth consists of several parts: the crown (visible part), the root (embedded in the jaw), enamel (hard outer...
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Nose and Nasal Cavity01:24

Nose and Nasal Cavity

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The nose is composed of an observable exterior segment (external nose) and an internal segment within the skull known as the nasal cavity (internal nose). The external nose, visible on the face, consists of a framework of bone and hyaline cartilage enveloped in skin and muscle and lined with a mucous membrane. This structure is supported by the frontal bone, nasal bones, and maxillary bone and is supplemented by a cartilaginous framework comprising the septal nasal cartilage, lateral nasal...
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Masonry Cavity Walls01:26

Masonry Cavity Walls

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Cavity walls feature a hollow space between the outer and inner wythes, connected only by corrosion-resistant metal ties. When water seeps through the outer wythe, it descends within this cavity, intercepted by flashing and eventually exiting through weep holes. To enhance moisture resistance, the inner wythe's cavity side often receives damp-proofing, doubling as an air barrier. The cavity can also house insulation to mitigate heat transfer.
Maintaining a clean cavity during construction...
1.4K
Standing Waves in a Cavity01:28

Standing Waves in a Cavity

1.5K
A household microwave and lasers are examples of standing electromagnetic waves in a cavity. When two conducting metal plates are placed parallel at the nodal planes, it creates a cavity where standing waves are formed. The cavity between the two planes is analogous to a stretched string held at the points x = 0 and x = L. Here, the distance 'L' between the two planes must be an integer multiple of half of the wavelength. The wavelengths that satisfy this condition are given by:
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Pressure Relationships in Thoracic Cavity01:24

Pressure Relationships in Thoracic Cavity

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Breathing, otherwise known as pulmonary ventilation, is the process of air movement into and out of the lungs. The main mechanisms propelling pulmonary ventilation are atmospheric pressure (Patm), intra-pulmonary (Ppul ) or intra-alveolar pressure (Palv) within the alveoli, and intrapleural pressure (Pip) within the pleural cavity.
Breathing Mechanisms
Both intra-alveolar and intrapleural pressures rely on specific lung properties. The ability to breathe—allowing air to enter the lungs...
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Cavity Drainage and Flashings in Masonry walls01:20

Cavity Drainage and Flashings in Masonry walls

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Typically, a cavity wall consists of two wythes separated by a gap of at least 2 inches, which may contain insulation while still maintaining a minimum clear space of 1 inch to facilitate adequate drainage. Advanced methods like the insertion of a continuous drainage mat can further reduce this space while ensuring effective moisture expulsion.
Weep holes, strategically placed at the base of the cavity, are critical for draining accumulated water. These openings are created by leaving head...
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相关实验视频

Updated: Jan 28, 2026

Origami Inspired Self-assembly of Patterned and Reconfigurable Particles
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在芯片上的拓边缘状态空洞中,可重构的超引发了透明度.

Wenhao Wang1,2, Ranjan Singh3

  • 1Division of Physics and Applied Physics, School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore, Singapore.

Advanced materials (Deerfield Beach, Fla.)
|January 27, 2026
PubMed
概括
此摘要是机器生成的。

研究人员展示了一种使用拓光子系统控制光的新方法. 这种技术创建了一个可调节的透明窗口,使得用于先进的光学和量子应用的慢光效应的动态控制.

关键词:
在芯片上的空腔.光子学是一种光子学.缓慢的光线缓慢的光线超合引发透明度的超合引发的透明度太赫兹拓的光子集成电路.拓边缘状态空洞的拓状态

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相关实验视频

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科学领域:

  • 量子光学就是一个量子光学.
  • 凝聚物质物理学 凝聚物质物理学
  • 摄影系统是光子系统.

背景情况:

  • 电磁诱导透明度 (EIT) 会产生狭窄的透明窗口和慢光效应.
  • 拓光子系统提供了强大的芯片上的光操纵.

研究的目的:

  • 通过拓边缘状态空洞 (TESC) 之间的超合来证明一种新型的诱导透明度形式.
  • 探索可光重构的超联诱导透明度 (SIT) 用于光的动态控制.

主要方法:

  • 利用当地的山谷,在距离上的TESC之间进行合.
  • 调查强度驾驶模式的影响,如模式分割和避免交叉.
  • 采用光学,在全TESC中实现可光重构的SIT.

主要成果:

  • 在TESC之间实现了超合,引发了透明窗口,反射是可以忽略的.
  • 证明频率调节导致强模式分裂并避免交叉.
  • 成功实现了可光重配置的SIT,允许动态控制群延迟与恒定传输率.

结论:

  • 超合诱导透明度 (SIT) 为操纵光流提供了一个新的途径.
  • 可照片重新配置的SIT提供了对慢光效果的动态控制.
  • 这种技术对芯片上的光学和量子信息处理具有前景.