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相关概念视频

Linear Approximation in Time Domain01:21

Linear Approximation in Time Domain

101
Nonlinear systems often require sophisticated approaches for accurate modeling and analysis, with state-space representation being particularly effective. This method is especially useful for systems where variables and parameters vary with time or operating conditions, such as in a simple pendulum or a translational mechanical system with nonlinear springs.
For a simple pendulum with a mass evenly distributed along its length and the center of mass located at half the pendulum's length,...
101
Time and frequency -Domain Interpretation of Phase-lag Control01:21

Time and frequency -Domain Interpretation of Phase-lag Control

115
Phase-lag controllers are widely used in control systems to improve stability and reduce steady-state errors. A dimmer switch controlling the brightness of a light bulb serves as a practical example of phase-lag control, gradually adjusting the bulb's brightness. Mathematically, phase-lag control or low-pass filtering is represented when the factor 'a' is less than 1.
Phase-lag controllers do not place a pole at zero, but instead influence the steady-state error by amplifying any...
115
Time and frequency -Domain Interpretation of PI Control01:27

Time and frequency -Domain Interpretation of PI Control

160
Proportional-Integral (PI) controllers are essential in many control systems to improve stability and performance. They are commonly used in everyday devices like thermostats to enhance system damping and reduce steady-state error. When the zero in the controller's transfer function is optimally placed, the system benefits significantly in terms of stability and accuracy.
Acting as a low-pass filter, the PI controller slows the system's response and extends settling times. This requires...
160
Time and frequency -Domain Interpretation of Phase-lead Control01:24

Time and frequency -Domain Interpretation of Phase-lead Control

103
Phase-lead controllers are commonly used in various control systems to enhance response speed and stability. Adjusting the brightness on a television screen offers a practical example of phase-lead control. When contrast is enhanced, a phase-lead controller is employed. Mathematically, phase-lead control is identified when the first parameter is smaller than the second.
The design of phase-lead control involves the strategic placement of poles and zeros to balance steady-state error and system...
103
Linear time-invariant Systems01:23

Linear time-invariant Systems

289
A system is linear if it displays the characteristics of homogeneity and additivity, together termed the superposition property. This principle is fundamental in all linear systems. Linear time-invariant (LTI) systems include systems with linear elements and constant parameters.
The input-output behavior of an LTI system can be fully defined by its response to an impulsive excitation at its input. Once this impulse response is known, the system's reaction to any other input can be...
289
Time-Domain Interpretation of PD Control01:07

Time-Domain Interpretation of PD Control

141
Proportional-Derivative (PD) control is a widely used control method in various engineering systems to enhance stability and performance. In a system with only proportional control, common issues include high maximum overshoot and oscillation, observed in both the error signal and its rate of change. This behavior can be divided into three distinct phases: initial overshoot, subsequent undershoot, and gradual stabilization.
Consider the example of control of motor torque. Initially, a positive...
141

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相关实验视频

Updated: Jul 19, 2025

Quantum State Engineering of Light with Continuous-wave Optical Parametric Oscillators
09:23

Quantum State Engineering of Light with Continuous-wave Optical Parametric Oscillators

Published on: May 30, 2014

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时间域通用线性光学运算用于通用量子信息处理.

Kazuma Yonezu1, Yutaro Enomoto1, Takato Yoshida1

  • 1Department of Applied Physics, School of Engineering, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan.

Physical review letters
|August 11, 2023
PubMed
概括
此摘要是机器生成的。

我们介绍了一个可扩展的光学电路,用于通用量子信息处理. 这种可编程电路可以实现决定性的三模运算,为大规模的光学量子计算机铺平了道路.

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相关实验视频

Last Updated: Jul 19, 2025

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09:23

Quantum State Engineering of Light with Continuous-wave Optical Parametric Oscillators

Published on: May 30, 2014

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Generation and Coherent Control of Pulsed Quantum Frequency Combs
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科学领域:

  • 量子信息处理 量子信息处理
  • 线性光学 线性光学是指线性光学
  • 量子计算是一种量子计算.

背景情况:

  • 全面量子信息处理 (QIP) 需要可靠和可编程的光学操作.
  • 现有的光学电路往往面临着可扩展性和可编程性的限制.

研究的目的:

  • 在时间领域展示通用和可编程的三模线性光学运算.
  • 引入可扩展的双循环光学电路,用于通用量子信息处理.

主要方法:

  • 实现一个双循环光学电路.
  • 在压缩状态脉冲上执行九种不同的三模式操作.
  • 使用可变测量结果的完整表征和纠的确认.

主要成果:

  • 演示了光学电路的可编程性,有效性和确定性操作.
  • 成功执行和验证了九个不同的三模式操作.
  • 在输出状态中确认纠.

结论:

  • 开发的双循环光学电路是可扩展的,适合于普遍的量子信息处理.
  • 该电路可以扩展到具有前系统的通用量子计算机.
  • 这项工作推动了大型通用光学量子计算机的发展.