Your Position: Home - Lenses - Plano-Concave Lenses

Plano-Concave Lenses

Author: Justin

Jun. 17, 2024

Plano-Concave Lenses

  • Have negative focal lengths
  • Diverge collimated incident light
  • Forms only virtual images which are seen through the lens
  • Reduce spherical aberration, coma and distortion at negative-infinite or near-infinite conjugate ratios
  • With the concave surface facing the longest conjugate distance

These lenses are thicker at the edge than in the centre and flat on one side. The plano-concave lenses are used to expand light beams or to increase focal lengths in optical systems. They are often employed for beam expansion of high peak power pulsed lasers. A beam incident on a concave surface will be focused to a point outside the instrument.

Click here to get more.

Air heating and ionization at the unwanted focal point are possible with attendant mode disruption or material damage. To avoid this problem, the input lens should be reversed so that no concave surface faces a parallel beam.

A variety of anti-reflection coatings is available for these lenses. For appropriate coating please refer to the COATINGS section. We can supply custom cutting, edging, coating or complete fabrication if required.

What Is The Plano Concave Lens?

1. What is the plane concave lens?

Plane concave lens is a negative lens with a negative focal length, and the parallel light beam will diverge after incident on the plane concave lens. The outgoing light rays cannot be converged into a single point, but seem to diverge from a virtual image point located in the physical space. When the absolute conjugate ratio is greater than 5:1 or less than 5:1, the plano concave lens is negative lenses of optimal shape for reducing spherical aberration, comatic aberration, and aberration.


optec are exported all over the world and different industries with quality first. Our belief is to provide our customers with more and better high value-added products. Let's create a better future together.

The concave surface of a plane concave lens should be oriented toward the object, but when applied to a high-energy laser system, it should be placed in the opposite direction to reduce the likelihood of remaining reflected light from the surface gathering. The plano concave lenses are spherical on one side and flat on the other. The middle is thinner than the sides.


2. The characteristics of the plane concave lens

A plane concave lens has one side concave and one side flat and has a negative focal length. Typically it is used for beam collimation, increasing (decreasing) focal length, or expanding (decreasing) an image. In order to obtain a smaller spherical aberration, when the incident beam is collimated, the collimated beam should be incident on the concave surface of the plane concave lens.


Related links:
Ace Hardware | The Helpful Place - Ace Hardware
4 Tips to Select the Right Longpass Optical Filter in Bulk
Features, Uses & Benefits of Optical Windows
How to Choose the Best Ball Lenses?
How Does Izod Impact Tester for Films Works
What is Power Quality Analyzer
Why is a Power Quality Analyzer So Important?

The plane concave lenses have negative focal lengths and are often used in applications such as imaging or beam collimation. Coated lenses are also widely used in visible light and near-infrared applications. Conventional lens sizes are: 412.7mm, 25.4mm, 50.8mm, and customized biconvex lenses can be produced according to requirements of customer project.

Plano-Concave Lenses

  • Have negative focal lengths
  • Diverge collimated incident light
  • Forms only virtual images which are seen through the lens
  • Reduce spherical aberration, coma and distortion at negative-infinite or near-infinite conjugate ratios
  • With the concave surface facing the longest conjugate distance

These lenses are thicker at the edge than in the centre and flat on one side. The plano-concave lenses are used to expand light beams or to increase focal lengths in optical systems. They are often employed for beam expansion of high peak power pulsed lasers. A beam incident on a concave surface will be focused to a point outside the instrument.

Air heating and ionization at the unwanted focal point are possible with attendant mode disruption or material damage. To avoid this problem, the input lens should be reversed so that no concave surface faces a parallel beam.

A variety of anti-reflection coatings is available for these lenses. For appropriate coating please refer to the COATINGS section. We can supply custom cutting, edging, coating or complete fabrication if required.

What Is The Plano Concave Lens?

1. What is the plane concave lens?

Plane concave lens is a negative lens with a negative focal length, and the parallel light beam will diverge after incident on the plane concave lens. The outgoing light rays cannot be converged into a single point, but seem to diverge from a virtual image point located in the physical space. When the absolute conjugate ratio is greater than 5:1 or less than 5:1, the plano concave lens is negative lenses of optimal shape for reducing spherical aberration, comatic aberration, and aberration.


The concave surface of a plane concave lens should be oriented toward the object, but when applied to a high-energy laser system, it should be placed in the opposite direction to reduce the likelihood of remaining reflected light from the surface gathering. The plano concave lensesplano concave lenses are spherical on one side and flat on the other. The middle is thinner than the sides.


2. The characteristics of the plane concave lens

A plane concave lens has one side concave and one side flat and has a negative focal length. Typically it is used for beam collimation, increasing (decreasing) focal length, or expanding (decreasing) an image. In order to obtain a smaller spherical aberration, when the incident beam is collimated, the collimated beam should be incident on the concave surface of the plane concave lens.


The plane concave lenses have negative focal lengths and are often used in applications such as imaging or beam collimation. Coated lenses are also widely used in visible light and near-infrared applications. Conventional lens sizes are: 412.7mm, 25.4mm, 50.8mm, and customized biconvex lenses can be produced according to requirements of customer project.

Related links:
Optical Window Design Characteristics - 10 step chart
An Introduction to the Different Types of Optical Filters
Rockwell hardness testing insight
Torque Measuring Units
The Best Places to Buy Plastic Film Testing Online and In-Store

95

0

Comments

Please Join Us to post.

0/2000

All Comments ( 0 )

Guest Posts

If you are interested in sending in a Guest Blogger Submission,welcome to write for us!

Your Name: (required)

Your Email: (required)

Subject:

Your Message: (required)