T E C H N I C A L B A C K G R O U N D 2. IR CORRECTIVE LENS.

Slides:

Advertisements

Similar presentations

Advertisements

How do scientific models describe light?

Microscope Objective Parameters. What do the Numbers on the Objective Mean ?

Visible Light Spectrum Britney Koetsier Nicole Podnecky.

Light what is it?. Light what is it? moving energy wave or particle?

The Refraction of Light The speed of light is different in different materials. We define the index of refraction, n, of a material to be the ratio of.

By Kimberley Evans, Huw Wells and Katy Langley. Catadioptrics use a combination of mirrors and lenses to fold the optics and form an image. There are.

Geometrical Optics and Basic Imaging Light Paths of the Bright Field Microscope E. D. Salmon University of North Carolina at Chapel Hill.

Whiteboard Warmup! A glass lens of refractive index n = 1.6 has a focal length of 30 cm while in air. What would happen to the focal length of the lens.

Light & Optics: Making a Telescope Dr Lisa Jardine-Wright.

Optics. Introduction  Geometrical Optics  Physical Optics  Modern Optics  Fundamental of Light Wave –Description E(r,t) = A(r)cos[ωt – kr] or E(r,t)

Source lens Entrance slit Exit slit width,  (mm) grating Concave mirrors Focal Plane Focal Length, F (mm)

Convex and Concave Lenses

CPSC 643 Robot Vision Introduction to Computer Vision Dezhen Song,

Introduction to Microscopy. Objectives Learn to use a compound microscope correctly. Diagram the path of light through a compound microscope. Name major.

LIGHT. Reflection of light When light is reflected off of a mirror it forms an image. Mirror Incident ray Reflected ray Normal.

A microscope is a Complicated Lens n The microscope can be represented by a single convex lens.

Land Based Telescopes. Telescopes: "light buckets" Primary functions: 1. ___________ from a given region of sky. 2. ______ light. Secondary functions:

Unit 2 - Optics.

Refraction By: Alicia Fadley. Refraction Refraction- the bending of a wave front as the wave front passes between two substances in which the speed of.

THE SUN-EARTH-MOON SYSTEM Chapter 28. The best tool to study the universe is the light emitted from it – Radiation We study Electromagnetic Radiation.

Light Chapter 16.

Optics 2: REFRACTION & LENSES. REFRACTION Refraction: is the bending of waves because of the change of speed of a wave when it passes from one medium.

Warm up question  1. How do you think astronomers can see planets, stars, and galaxies that are so far away?

INtroduction to Optical Lenses BY: Maggie Castle.

Optics and Telescopes. Optics and Telescopes: Guiding Questions 1.How do reflecting and refracting telescopes work? 2.Why is it important that professional.

NS 1300 Dr. Hoge. Is the invisibility cloak real? How does it work?

Geometrical Optics Chapter 24 + Other Tidbits 1. On and on and on …  This is a short week.  Schedule follows  So far, no room available for problem.

Light, the Eye and Optics. Light aka Visible Electromagnetic Radiation.

Tools of Astronomy. Electromagnetic Radiation Light travels as an “Electromagnetic” Wave The light you see is called Visible Light Speed of light: 186,000.

Star Messages Module A Chapter 2 Grade 6 Science.

Chapter 23 Ray Optics Why doesn’t this work with real spoons?

12.1 Characteristics of Lenses. Today we will learn about...  the different types of lenses, the characteristics of the image formed by each of those.

COLORCOLOR. COLORCOLOR Why do I see all those pretty colors?

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Waves and Particles The two most commonly used models describe light.

Astronomy 1010-H Planetary Astronomy Fall_2015 Day-21.

1. What is depth of field? 2. Everything else equal, what effect will each of the following have on depth of field (larger, smaller?): -Larger aperture.

Units to cover 25, Types of Spectra Kirchoff ’ s Laws: –If the source emits light that is continuous, and all colors are present, we say that this.

Light and Its Uses.

James T. Shipman Jerry D. Wilson Charles A. Higgins, Jr. Optics and Wave Effects Chapter 7.

The Nature of Light. Light Can Act Like Waves or In 1801 Thomas Young an English scientist did an experiment. –Double slit experiment Passed a beam of.

Sound and LightSection 4 EQ: How can the phenomena of reflection, refraction, interference, and diffraction be explained?

Lenses Convex lenses converge rays of light. Parallel rays converge a fixed distance away from the lens. This is known as the focal length.

Spectrums & Telescopes *A device that makes distant objects appear to be closer *They detect electromagnetic radiation – light or energy that can travel.

Light: reflection and refraction Lesson 2. Law of reflection Angle of reflection Angle of incidence The angle of incidence = the angle of reflection.

selects and directs the light rays entering the camera brings light from the subjects into focus on the film.

Telescopes….. Telescopes are helpful to astronomers because they…. Collect more light Separate distant objects…. Magnify the image Detect other wavelengths…

Lesson 3 To understand the effect that convex and concave lenses have on light. 2. To appreciate real world applications of concave and convex lenses.

Four Important Properties of Waves. 1.Reflection 2.Refraction 3.Diffraction 4.Interference.

 Possible answer: ◦ Telescopes gather and focus light to make the object easier to observe.

DISPERSIVE POWER OF A GRATING Dispersive power of a grating is defined as the ratio of the difference in the angle of diffraction of any two neighbouring.

The electromagnetic spectrum Light is one kind of electromagnetic energy. We can see nm (somewhat arbitrary cut-offs). Longer is infrared, shorter.

G. Trad on the behalf of the BSRT team Emittance meeting 04/11/2015.

Strictly confidential Introduction to Lenses 07/28/2015: 2014 Applied Core Technology Inc., All Rights Infrared Vision 05/13/2014: Copyright.

Light What is it?.

Refraction and Lenses.

Electromagnetic Spectrum Project

Ch.1, Sec.2 - Telescopes Optical Telescopes

Telescopes and the Electromagnetic Spectrum Section 3

Correcting Chromatic Aberrations

12.1 Characteristics of Lenses

The spectrum Year 8 Science.

Refraction Optical Phenomena.

Ch.6 Lens (透鏡).

Unit 3 Practice Test Answer KEY

4th Grade Science - Askew

Refraction Optical Phenomena.

Light and Living Things

Presentation transcript:

T E C H N I C A L B A C K G R O U N D 2. IR CORRECTIVE LENS

IR Correction T E C H N I C A L B A C K G R O U N D By the reason that the strength of the refraction is directly proportional to the wavelength, the longer infrared beams have a shorter focal point than the visible light beams. Blurry and unsharp pictures when using IR illumination with a normal Lens (NIR Spectrum 700 – 1000 nm) IR Light IR Light Focal Plane Visible Light Focal Plane Visible Light Focus Shift

IR Correction T E C H N I C A L B A C K G R O U N D With LD Glass (= Low Dispersion) and a special coating, IR-Corrected lenses can compensate the different focal points between normal light and IR light. No Focus Shift anymore. Reliable sharp pictures for Day & Night Surveillance !!! IR Light Visible Light Focal Plane

Technical Manual Tamron D/N Lens Performance Lens: Tamron 3.0-8mm IR Wavelength: 900nm

Technical Manual Competitor D/N Lens Performance Lens: Competitor Wavelength: 900nm