Learning how to take visually appealing photos is a learning process in any field. Learning to use infrared camera lenses to capture images is a whole new experience. Although installing infrared camera lenses is the same as any other lens on a camera, taking photos with it does not involve a "what you see is what you get" approach. Take some time to experiment with exposure lengths and different lighting levels. Let's explore infrared photography together, just like newcomers to photography.

Infrared lensglasses

The biggest advantage of infrared photography lies in its inherent infrared spectrum. Infrared camera lenses capture things that the human eye cannot see. This means that anyone without an infrared camera lens will not see any photos you take with infrared camera lenses in the same style. The images will be unique. The biggest advantage of infrared photography is also its biggest drawback; it is very unconventional. Shooting family photos, wedding photos, or photos of anyone else will distort the subject. Although the effect may be interesting, it is unlikely to be considered pleasing. Infrared photography does not show us what our eyes see, so we must be more open to the final product.

Infraredeyelens

Image Science designs and manufactures optical test equipment for assessing the quality of visible and infra-red lenses. Parameters measured include:

Infrared light is an illuminating wave between visible light and microwave energy levels in the electromagnetic spectrum. The range of infrared light extends from red to violet. Because infrared light is a part of the visible light spectrum that we cannot see without infrared camera lenses, infrared camera lenses photography truly allows our eyes to see a new element of our world. Unfortunately, infrared photography has its limitations.

Infrared lensmaterial

Image Science offers a comprehensive range of optical test equipment for MTF measurement and other performance-related parameters. Our benches can be adapted to suit your individual requirements, if your system forms an image, we can assess it! In addition to MTF we can also measure the following optical parameters: PTF, LSF, EFL, FFL, FOV, Distortion, Field Curvature, relative and absolute transmission. Our benches can be supplied with sources and detectors for the following spectral bands: Visible, NIR, SWIR, MWIR, LWIR. Image Science also offers an in-house MTF testing service for customers who wish to test pre-production prototypes.

Infrared lensfilter

Cost can be both an advantage and a disadvantage. For beginner photographers looking for ways to capture infrared light, the prices of basic lenses are relatively low. However, the better the infrared camera lenses, the more delicate the infrared light. High-quality infrared camera lenses are usually more expensive.

Our state of the art equipment meets industry standards and offers fast and accurate measurements at all times. Our benches can be used for research and development, as well as for testing the performance and quality of lenses in production.

Call now to speak to a member of our specialist team, about all of our services including MTF measurements, We will be more than happy to advise on the most appropriate apparatus for your testing and assessment requirements.

Established in 1991, we have enjoyed 26 years in the business and have a wealth of knowledge and experience as a result. You can therefore be confident in our ability to supply the testing equipment that would best suit your needs.

Infrared rays, also known as infrared rays, are a range of wavelengths in the spectrum from 0.76 to 400 micrometers, which are invisible light. All substances above absolute zero (-273.15°C) can generate infrared rays. In modern physics, it is called thermal radiation. Medical infrared rays can be divided into two categories: near-infrared and far-infrared. Infrared cameras are powered by low-power infrared rays, which are either near-infrared or short-wave infrared.Understanding infrared camera lenses and their advantagesInfrared light is an illuminating wave between visible light and microwave energy levels in the electromagnetic spectrum. The range of infrared light extends from red to violet. Because infrared light is a part of the visible light spectrum that we cannot see without infrared camera lenses, infrared camera lenses photography truly allows our eyes to see a new element of our world. Unfortunately, infrared photography has its limitations.Cost can be both an advantage and a disadvantage. For beginner photographers looking for ways to capture infrared light, the prices of basic lenses are relatively low. However, the better the infrared camera lenses, the more delicate the infrared light. High-quality infrared camera lenses are usually more expensive.The biggest advantage of infrared photography lies in its inherent infrared spectrum. Infrared camera lenses capture things that the human eye cannot see. This means that anyone without an infrared camera lens will not see any photos you take with infrared camera lenses in the same style. The images will be unique. The biggest advantage of infrared photography is also its biggest drawback; it is very unconventional. Shooting family photos, wedding photos, or photos of anyone else will distort the subject. Although the effect may be interesting, it is unlikely to be considered pleasing. Infrared photography does not show us what our eyes see, so we must be more open to the final product.Learning how to capture images with infrared camera lensesLearning how to take visually appealing photos is a learning process in any field. Learning to use infrared camera lenses to capture images is a whole new experience. Although installing infrared camera lenses is the same as any other lens on a camera, taking photos with it does not involve a "what you see is what you get" approach. Take some time to experiment with exposure lengths and different lighting levels. Let's explore infrared photography together, just like newcomers to photography.

Infrared rays, also known as infrared rays, are a range of wavelengths in the spectrum from 0.76 to 400 micrometers, which are invisible light. All substances above absolute zero (-273.15°C) can generate infrared rays. In modern physics, it is called thermal radiation. Medical infrared rays can be divided into two categories: near-infrared and far-infrared. Infrared cameras are powered by low-power infrared rays, which are either near-infrared or short-wave infrared.