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Related Concept Videos

Stereoisomerism02:52

Stereoisomerism

Isomerism in Complexes
Isomers are different chemical species that have the same chemical formula.
Transition metal complexes often exist as geometric isomers, in which the same atoms are connected through the same types of bonds but with differences in their orientation in space. Coordination complexes with two different ligands in the cis and trans positions from a ligand of interest form isomers. For example, the octahedral [Co(NH3)4Cl2]+ ion has two isomers (Figure 1) In the cis...
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Consider a vector rotating about an axis with an angular velocity, such that its tip sweeps a circular path.
Properties of Enantiomers and Optical Activity02:24

Properties of Enantiomers and Optical Activity

It is essential to understand the difference between chiral and achiral interactions and the implications thereof in optical activity and their applications. Just as our feet, which are chiral, interact uniquely with chiral objects, such as a pair of shoes, but identically with achiral socks, enantiomers of a molecule exhibit different properties only when they interact with other chiral media. An example of a significant implication from this facet is the phenomenon known as optical activity,...
Transformations of Functions I01:29

Transformations of Functions I

A function's graph can be modified by changing its position or size without altering its overall shape. These transformations allow the graph to be moved across the coordinate plane while preserving its pattern and structure. One of the most common transformations is shifting, which repositions the graph without distorting it.When the output of a function is adjusted by adding or subtracting a constant, the graph shifts vertically. A positive value moves the graph upward, while a negative value...
Properties of the z-Transform I01:17

Properties of the z-Transform I

The z-transform is a fundamental tool in digital signal processing, enabling the analysis of discrete-time systems through its various properties. It is an invaluable tool for analyzing discrete-time systems, offering a range of properties that simplify complex signal manipulations. One fundamental property is linearity. For any two discrete-time signals, the z-transform of their linear combination equals the same linear combination of their individual z-transforms. This property is essential...

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Related Experiment Video

Updated: Jun 8, 2026

Transmission of Multiple Signals through an Optical Fiber Using Wavefront Shaping
09:43

Transmission of Multiple Signals through an Optical Fiber Using Wavefront Shaping

Published on: March 20, 2017

Optical-coordinate transformation methods and optical-interconnection architectures.

D Mendlovic, H M Ozaktas

    Applied Optics
    |September 22, 2010
    PubMed
    Summary
    This summary is machine-generated.

    This study explores optical transformations and interconnections, comparing multifacet and multistage architectures. Multifacet designs suit low-cost needs, while multistage designs offer high performance for optical computing.

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    Last Updated: Jun 8, 2026

    Transmission of Multiple Signals through an Optical Fiber Using Wavefront Shaping
    09:43

    Transmission of Multiple Signals through an Optical Fiber Using Wavefront Shaping

    Published on: March 20, 2017

    Characterization of SiN Integrated Optical Phased Arrays on a Wafer-Scale Test Station
    05:57

    Characterization of SiN Integrated Optical Phased Arrays on a Wafer-Scale Test Station

    Published on: April 1, 2020

    Quasi-light Storage for Optical Data Packets
    07:45

    Quasi-light Storage for Optical Data Packets

    Published on: February 6, 2014

    Area of Science:

    • Optical computing
    • Information processing

    Background:

    • Optical one-to-one point transformations and interconnections are fundamental operations in optical computing.
    • Understanding their analogies and implementation methods is crucial for advancing optical systems.

    Purpose of the Study:

    • To discuss the analogy between optical one-to-one point transformations and interconnections.
    • To review and compare methods for performing these optical operations.

    Main Methods:

    • Comparative analysis of multifacet and multistage architectures.
    • Review of existing methods for optical transformations and interconnections.

    Main Results:

    • Both multifacet and multistage architectures can implement arbitrary one-to-one transformations and interconnection patterns.
    • Multifacet architectures are suitable for low-cost, low-resolution applications.
    • Multistage architectures are advantageous for high-cost, high-performance applications.

    Conclusions:

    • The choice between multifacet and multistage architectures depends on application-specific cost and performance requirements.
    • These architectures provide flexibility in designing optical systems for various computational tasks.