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TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. TECHSPEC®組件由愛特蒙特光學設計、指定或製造。進一步瞭解

金屬線柵偏振薄膜

TECHSPEC® Wire Grid Polarizing Film

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  • 高對比度,反射型設計
  • 出眾的可見光與近紅外效能
  • 在高溫、潮濕環境中具有無與倫比的耐用性

金屬線柵偏振薄膜非常適用於需要高對比度偏振的應用(包括微型投影機、偏振分光鏡及抬頭顯示器)。金屬線柵偏振薄膜經過精心設計,可穿透所需的偏振狀態,而反射不需要的狀態。由於這些偏光片在入射角達45°時具有光譜平直的效能,因此也可以用作偏振分光鏡。此外,金屬線柵偏振薄膜在高溫或潮濕環境中具備出眾的耐用性,並能在400 - 1200nm的可見光與近紅外光範圍內提供絕佳的效能。

注意:由於金屬線柵裸露在外,因此操作時應非常小心,以免損傷偏光片。

一般規格

Construction:
Wire Grid
Angle of Incidence (°):
0 - 45
Wavelength Range (nm):
400 - 1200

產品

 Operating Temperature (°C)   Substrate   Thickness (mm)   Dimensions (mm)  Dia. (mm)  Extinction Ratio   比較  庫存號碼  價格 Buy
60 Max @ 90% RH 105 in dry conditions Aluminium Wires on COP 0.19 - 25.00 2000:1 Avg
60 Max @ 90% RH 105 in dry conditions Aluminium Wires on COP 0.19 12.50 x 12.50 - 2000:1 Avg
60 Max @ 90% RH 105 in dry conditions Aluminium Wires on COP 0.19 20.00 x 20.00 - 2000:1 Avg
60 Max @ 90% RH 105 in dry conditions Aluminium Wires on COP 0.19 25.00 x 25.00 - 2000:1 Avg
60 Max @ 90% RH 105 in dry conditions Aluminium Wires on COP 0.19 30.00 x 30.00 - 2000:1 Avg
60 Max @ 90% RH 105 in dry conditions Aluminium Wires on COP 0.19 50.00 x 50.00 - 2000:1 Avg
60 Max @ 90% RH 105 in dry conditions Aluminium Wires on COP 0.19 75.00 x 75.00 - 2000:1 Avg
60 Max @ 90% RH
105 in dry conditions
Aluminium Wires on COP 0.19 12.5 x 12.5 - >1415:1
60 Max @ 90% RH
105 in dry conditions
Aluminium Wires on COP 0.19 20 x 20 - >1415:1
60 Max @ 90% RH
105 in dry conditions
Aluminium Wires on COP 0.19 - 25.00 >1415:1
60 Max @ 90% RH
105 in dry conditions
Aluminium Wires on COP 0.19 25 x 25 - >1415:1
60 Max @ 90% RH
105 in dry conditions
Aluminium Wires on COP 0.19 30 x 30 - >1415:1
60 Max @ 90% RH
105 in dry conditions
Aluminium Wires on COP 0.19 50 x 50 - >1415:1
60 Max @ 90% RH
105 in dry conditions
Aluminium Wires on COP 0.19 75 x 75 - >1415:1
沒有找到您需求的尺寸?在此獲取您的客製尺寸報價。

產品概覽

可立即獲取客製報價

如果您需要尺寸介於3 mm和600 mm之間的圓形,方形或矩形聚合物相位延遲薄膜, 造訪我們的 偏振片訂製工具。  我們將立即提供報價,並在大約5周內按您需要的規模交付報價。  列出了標準製造公差和限制的完整清單。  若想根據您的要求進行全套客製,請瀏覽  光學濾光片玻璃客製能力專題頁。

Technical Information

資源

Filter

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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Understanding Waveplates and Retarders

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?

Analyzer

Birefringence

Circular Polarizer

Polarization

Polarizer

Polarizing Efficiency

P-Polarization

Retardance

Retarder (Waveplate)

S-Polarization

Unpolarized

Wire Grid 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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Polarizers Review

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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Extinction Ratio

Non-Polarizing Beamsplitter

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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雷射偏振:偏振在雷射應用的重要性

了解雷射的偏振對於許多應用至關重要,因為偏振會影響反射率、聚焦光束和其他關鍵行為。

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