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12.7mm Dia. 980nm λ/2 Quartz Waveplate Zero Order

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KRW 495,900
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제품 정보 다운로드
Clear Aperture CA (mm):
8.00
Coating:
Laser V-Coat (980nm)
Design Wavelength DWL (nm):
980
Diameter (mm):
12.70 +0.00/-0.25
Substrate: Many glass manufacturers offer the same material characteristics under different trade names. Learn More
Crystal Quartz
Retardance:
λ/2
Surface Quality:
10-5
Thickness (mm):
6.40 +0.00/-0.25
Type:
Crystalline Waveplate
Construction:
Crystalline
Transmitted Wavefront, P-V:
λ/10 for central 80% of clear aperture
Parallelism (arcsec):
<3
Retardance Tolerance:
±λ/200
Temperature Coefficient (λ/°C):
0.0001
Retardance Order:
0

Regulatory Compliance

RoHS 2015:
Certificate of Conformance:
Reach 240:

제품군의 상세 설명

  • Zero Order 및 Multiple Order Waveplates
  • λ/4 및 λ/2 Retardance
  • Black Anodized Aluminum Frame에 장착
  • Zero Order Polymer Waveplates도 이용 가능

multiple order 및 zero order로 이용 가능한 Quartz Waveplates (Retarders)는 다양한 용도에 아주 적합합니다. Multiple order waveplates는 waveplate의 설계 파장 대비 파장 변화율이 ±1% 미만인 경우에 적합합니다. 변화율이 ±1%를 초과하는 용도에서는 대역폭 증가와 온도 변화에 대한 sensitivity 저하로 인해 zero order waveplates 사용을 권장합니다. 손쉬운 시스템 결합을 위해 mount 가장자리에 fast axis가 표시되어 있습니다.

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Introduction to Polarization

Is polarization a new topic for you? Learn about key terminology, types, and more information to help you understand polarization at Edmund Optics.

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Laser-Cut Polymer Polarizer and Retarder Quote Tool

Polymer Polarizers and Retarders

Polymer polarizers and retarders, consisting of sheets of polyvinyl alcohol and TAC cellulose triacetate, alter the polarization of light.

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Polarizer Selection Guide

Edmund Optics' Polarizer Selection Guide refines your search for a specific type of polarizer.

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Waveplate 이해하기

Waveplates (retarders) are different when used in polarized light than unpolarized light. Consider terminology, fabrication, or applications at Edmund Optics.

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How Do 3D Movies Work? Polarization

Optical Engineer Katie Schwertz explains how 3D movies work because of polarization in a kid-friendly way.

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Polarization Overview - Part 1: Polarization Basics

Polarizers are optical components designed to filter, modify, or analyze the various polarization states of light.

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Polarization Overview - Part 2: Waveplates & Retarders (Advanced)

Waveplates and retarders are optical components designed to transmit light while modifying its polarization state without attenuating, deviating, or displacing the beam.

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You offer many types of polarizers. What are some key benefits to help me decide which is best for my application?

Are the polarizers shipped with a protective film?

What is the difference between s- and p-polarization states?

What are the meanings for the different terms used for polarizers?

How can I tell what the polarization axis is for a linear polarizer?

When you list the average transmission of a polarizer, what is the difference between single, parallel, and crossed?

I have a linear polarizer glass filter and would like to create circularly polarized light. What type of optics do I need for this?

What is the maximum amount of light a polarizer can transmit?

Does the circular polarizer material have to face a particular direction?

What is the fast and slow axis of a retarder and how do they differ?

How can I find the fast and slow axes of a retarder?

What is the difference between multiple and zero-order retarders and when should I pick one over the other?

How can I determine if a retarder is quarter or half wave?

Can I adapt a retarder for use with a specific wavelength other than the design wavelength?

What is the benefit of polymer retarders?

Polarization

Polarizer

Polarizing Efficiency

P-Polarization

Retardance

Retarder (Waveplate)

S-Polarization

Unpolarized

Wire Grid Polarizer

Analyzer

Birefringence(복굴절)

Circular Polarizer

Successful Light Polarization Techniques

Are you looking for a solution to common imaging problems? Discover different polarization techniques to improve your image at Edmund Optics.

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Polarization Directed Flat Lenses Product Review

Polarization Directed Flat Lenses, which are formed with polymerized liquid crystal thin-film, create a focal length that is dependent on polarization state.

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Optical Polarizers 리뷰

Polarizers are used in a wide range of imaging and research and development applications.

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Does the polarization of light change after reflecting off a mirror?

Do diffusers affect the polarization of light?

Does the polarization of light change when it passes through a beamsplitter?

I would like to split light from a circularly polarized laser source into two beams. What happens when it passes through a cube beamsplitter – both non-polarizing and polarizing?

Does light entering a multimode fiber undergo a polarization change during propagation through the fiber? If so, can the emerging light be linearly polarized by placing a polarizer at the fiber’s output end?

Why does the polarization of a laser matter?

The polarization state of a laser source is important for many different applications.

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Polarizing Beamsplitter

Extinction Ratio(소광비)

Non-Polarizing Beamsplitter

Optical Microscopy Application: Differential Interference Contrast

Differential interference contrast (DIC) is one of the polarization techniques that can be used in optical microscopy. Learn about this technique at Edmund Optics.

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Laser Polarization: The Importance of Polarization in Laser Applications

Understanding the polarization of laser light is critical for many applications, as polarization impacts reflectance, focusing the beam, and other key behaviors.

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