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相关概念视频

Semiconductors01:22

Semiconductors

636
There is variation in the electrical conductivity of materials - metals, semiconductors, and insulators that are showcased with the help of the energy band diagrams.
Metals such as copper (Cu), zinc (Zn), or lead (Pb) have low resistivity and feature conduction bands that are either not fully occupied or overlap with the valence band, making a bandgap non-existent. This allows electrons in the highest energy levels of the valence band to easily transition to the conduction band upon gaining...
636
Continuous Charge Distributions01:17

Continuous Charge Distributions

6.8K
Imagine a bucket of water. It contains many molecules, of the order of 1026 molecules. Thus, although it contains discrete elements (molecules) at the microscopic level, macroscopically, it can be considered continuous. Small volume elements of water, infinitesimal compared to the bulk of the bucket's volume, still contain many molecules. Under this framework, quantized matter is approximated as continuous for practical purposes.
The electric charge can also be subjected to an analogical...
6.8K
Network Function of a Circuit01:25

Network Function of a Circuit

262
Frequency response analysis in electrical circuits provides vital insights into a circuit's behavior as the frequency of the input signal changes. The transfer function, a mathematical tool, is instrumental in understanding this behavior. It defines the relationship between phasor output and input and comes in four types: voltage gain, current gain, transfer impedance, and transfer admittance. The critical components of the transfer function are the poles and zeros.
262
RC Circuit without Source01:16

RC Circuit without Source

1.0K
When a DC source is abruptly disconnected from an RC (Resistor-Capacitor) circuit, the circuit becomes source-free. Assuming that the capacitor was fully charged before the source was removed, its initial voltage, denoted as V0, can be considered as the initial energy that stimulates the circuit.
Applying Kirchhoff's current law at the top node of the circuit and substituting the current values across the components, a first-order differential equation is obtained. By rearranging the terms...
1.0K
Sampling Continuous Time Signal01:11

Sampling Continuous Time Signal

203
In signal processing, a continuous-time signal can be sampled using an impulse-train sampling technique, followed by the zero-order hold method. Impulse-train sampling involves the use of a periodic impulse train, which consists of a series of delta functions spaced at regular intervals determined by the sampling period. When a continuous-time signal is multiplied by this impulse train, it generates impulses with amplitudes corresponding to the signal's values at the sampling points.
In the...
203
Non-ohmic Devices00:51

Non-ohmic Devices

1.0K
In most substances, the current flow is proportional to the voltage applied to it. A simple relationship between the values of current, voltage, and resistance is known as Ohm's law. Nonohmic devices do not exhibit a linear relationship between voltage and current. One such device is the semiconducting circuit element known as a diode. A diode is a circuit device that allows current flow in only one direction.
Consider a simple circuit consisting of a battery, a diode, and a resistor. A...
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Updated: Jun 5, 2025

Scalable Quantum Integrated Circuits on Superconducting Two-Dimensional Electron Gas Platform
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对于集成电路的按需连续变量量子纠源.

Mehmet Günay1, Priyam Das2, Emre Yüce3

  • 1Department of Nanoscience and Nanotechnology, Faculty of Arts and Science, Mehmet Akif Ersoy University, 15030 Burdur, Türkiye.

Nanophotonics (Berlin, Germany)
|December 5, 2024
PubMed
概括
此摘要是机器生成的。

研究人员开发了一种电压控制的量子纠装置. 这种微米级的系统允许调整数量级的非经典光生成,这对于集成量子电路至关重要.

关键词:
范诺共振是一个共振.量子集成电路中的量子集成电路.量子光学中的量子光学.电压控制器的电压控制器

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Scalable Quantum Integrated Circuits on Superconducting Two-Dimensional Electron Gas Platform

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科学领域:

  • 量子光学就是一个量子光学.
  • 纳米光子学 纳米光子学
  • 集成量子电路的集成量子电路.

背景情况:

  • 将产生非经典状态的设备集成到光子电路中,如纠,是先进量子技术的关键.
  • 控制微米级设备中非经典状态的生成对于集成量子电路 (IQC) 的稳定运行至关重要.

研究的目的:

  • 提出和演示一个电压调节的微米级量子纠装置.
  • 为了在集成光子系统中实现对非经典光源产生的显著控制.

主要方法:

  • 在金属纳米结构 (MNS) 的热点中嵌入可调节电压的量子发射器 (QE).
  • 使用QE-MNS合来诱导非线性响应中的Fano共振,增强和控制非线性.
  • 利用电压诱导调整QE水平间距来精确控制非线性.

主要成果:

  • 演示了一种微米级量子纠装置,具有电压调节的非线性.
  • 实现了对跨越数个数量级 (高达5个数量级调制深度) 的非经典性生成的控制.
  • 展示了使用毫电子伏特 (meV) 电压调的非经典性的连续开/关.

结论:

  • 拟议的设备提供了一种新的方法来控制IQC中的非传统光发电.
  • 可调节电压的量子发射器与金属纳米结构相结合,为集成量子光学提供了一个强大的平台.
  • 这项技术使未来的集成量子电路能够稳健高效地运行.