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Search Results for: Achromatic Waveplates (61)

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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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Achromatic Lenses Review

Learn about EO's most popular family of optical lenses and discover if achromatic lenses are ideal for your next application.

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Aspherized Achromatic Lens Review

Aspherized Achromatic Lenses, exclusive to Edmund Optics, are doublet lenses consisting of two cemented optical elements that are matched for their color-correction ability and small RMS spot size.

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Achromatic Lens

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Achromatic Objective

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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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What is the difference between Achromatic, Semi-Plan and Plan objectives?

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How is the location of the principal plane of a negative achromatic lens calculated?

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Achromatic Singlet Lenses

Novel aspheric lenses that correct for chromatic focal shift using a unique geometry rather than multiple substrate materials connected together.

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What is the difference between an achromatic cylinder lens and a standard plano-convex (PCX) cylinder lens?

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What should I use to clean the lens element in an aspherized achromatic lens?

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Why Use an Achromatic Lens?

Want to know why you should use an achromatic lens? Find out more about achromatic lenses including the anatomy, notable features, and more at Edmund Optics

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Aspherized Achromatic Lenses

Want an inside look at Aspherized Achromatic Lenses? Learn about the advantages, composition, and aspherized process at Edmund Optics.

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Why Choose an Achromatic Cylinder Lens?

Debating whether or not to use a traditional cylinder lens or an achromatic cylinder lens? Discover the benefits of achromatic cylinder lenses at Edmund Optics.

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Metrology of achromatic diffractive features on chalcogenide lenses

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

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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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Single-Material Aspheric Achromats

Single-Material Aspheric Achromats correct chromatic aberrations with a unique geometry, leading to numerous benefits over conventional achromatic lenses.

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What are the different types of aspheric lenses?

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Do you have a simple prototyping assembly for an imaging system?

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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?

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The Benefits of Color-Corrected Optical Lenses

Color-corrected optical lenses are ideal for many applications because they reduce multiple aberrations. Learn more about the advantages at Edmund Optics.

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What is the difference between an inked lens and a non-inked one?

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I am trying to determine whether it is possible to use a reversed lens to defocus a collimated beam into a ball lens in order to increase the BFL of the ball lens. What formulas would I need to use to calculate the lens required and its position?

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How To Align a Monolithic Beam Expander

Monolithic Reflective Beam Expanders are ideal for applications requiring broadband or achromatic beam expansion.

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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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Reflective Optics for Laser Applications

Beam Conditioning Optics for UV, IR, and Broadband Lasers

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Lens Geometry Performance Comparison

This comparison of the performance of aspheric, achromatic, and spherical PCX lenses in different situations reveals the ideal use cases for each type of lens.

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Open-Source DIY Microscopy

Accessible, Flexible Technology Supported by a Community of Users

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Aspheric Lens Takeover

Time to Replace Spherical Elements with Aspheric Lenses

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Edmund Optics^®

Verified library of trusted technical resources created by our 240+ global engineers.

Glossary

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

Achromatic Lenses Review

Aspherized Achromatic Lens Review

Achromatic Lens

Achromatic Objective

Understanding Waveplates and Retarders

What is the difference between Achromatic, Semi-Plan and Plan objectives?

How is the location of the principal plane of a negative achromatic lens calculated?

Achromatic Singlet Lenses

What is the difference between an achromatic cylinder lens and a standard plano-convex (PCX) cylinder lens?

What should I use to clean the lens element in an aspherized achromatic lens?

Why Use an Achromatic Lens?

Aspherized Achromatic Lenses

Why Choose an Achromatic Cylinder Lens?

Metrology of achromatic diffractive features on chalcogenide lenses

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

Laser Polarization: The Importance of Polarization in Laser Applications

Single-Material Aspheric Achromats

What are the different types of aspheric lenses?

Do you have a simple prototyping assembly for an imaging system?

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

The Benefits of Color-Corrected Optical Lenses

What is the difference between an inked lens and a non-inked one?

I am trying to determine whether it is possible to use a reversed lens to defocus a collimated beam into a ball lens in order to increase the BFL of the ball lens. What formulas would I need to use to calculate the lens required and its position?

How To Align a Monolithic Beam Expander

Introduction to Polarization

Reflective Optics for Laser Applications

Lens Geometry Performance Comparison

Open-Source DIY Microscopy

Aspheric Lens Takeover

Edmund Optics®

Verified library of trusted technical resources created by our 240+ global engineers. @media (max-width: 992px) { .modal { z-index: 999999999999; }}

Glossary

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

Achromatic Lenses Review

Aspherized Achromatic Lens Review

Achromatic Lens

Achromatic Objective

Understanding Waveplates and Retarders

What is the difference between Achromatic, Semi-Plan and Plan objectives?

How is the location of the principal plane of a negative achromatic lens calculated?

Achromatic Singlet Lenses

What is the difference between an achromatic cylinder lens and a standard plano-convex (PCX) cylinder lens?

What should I use to clean the lens element in an aspherized achromatic lens?

Why Use an Achromatic Lens?

Aspherized Achromatic Lenses

Why Choose an Achromatic Cylinder Lens?

Metrology of achromatic diffractive features on chalcogenide lenses

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

Laser Polarization: The Importance of Polarization in Laser Applications

Single-Material Aspheric Achromats

What are the different types of aspheric lenses?

Do you have a simple prototyping assembly for an imaging system?

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

The Benefits of Color-Corrected Optical Lenses

What is the difference between an inked lens and a non-inked one?

I am trying to determine whether it is possible to use a reversed lens to defocus a collimated beam into a ball lens in order to increase the BFL of the ball lens. What formulas would I need to use to calculate the lens required and its position?

How To Align a Monolithic Beam Expander

Introduction to Polarization

Reflective Optics for Laser Applications

Lens Geometry Performance Comparison

Open-Source DIY Microscopy

Aspheric Lens Takeover

Edmund Optics^®

Verified library of trusted technical resources created by our 240+ global engineers.