
Exercise 13 Geometrical and Technical Optics WS 2013/2014
... In this case the aberrations for 40 mm beam diameter are (again first surface at z=-6 mm and second surface at z=0 mm): =587.6 nm: z_Focus: 92.981 mm, spot radius: 0.161 mm, P/V wave aberrations: 20.57 =486.1 nm: z_Focus: 91.955 mm, spot radius: 0.162 mm, P/V wave aberrations: 25.18 =656.3 nm ...
... In this case the aberrations for 40 mm beam diameter are (again first surface at z=-6 mm and second surface at z=0 mm): =587.6 nm: z_Focus: 92.981 mm, spot radius: 0.161 mm, P/V wave aberrations: 20.57 =486.1 nm: z_Focus: 91.955 mm, spot radius: 0.162 mm, P/V wave aberrations: 25.18 =656.3 nm ...
Optical Properties of Condensed Matters
... luminesce strongly When electrons are promoted into the excited states of the molecule. The luminescence is Stokes shifted to lower energy compared to absorption, and typically occurs in the middle of the visible spectral region. The emission wavelength can be tuned by small alternation to the chemi ...
... luminesce strongly When electrons are promoted into the excited states of the molecule. The luminescence is Stokes shifted to lower energy compared to absorption, and typically occurs in the middle of the visible spectral region. The emission wavelength can be tuned by small alternation to the chemi ...
1.3.6 Electromagnetic radiation Name Symbol Definition SI
... is the amount (of substance) concentration, and l is the path length. Most tabulations give the specific optical rotatory power, denoted [α]. The wavelength of light used λ (frequently the sodium D line) and the Celsius temperature θ are conventionally written as a subscript and superscript to the s ...
... is the amount (of substance) concentration, and l is the path length. Most tabulations give the specific optical rotatory power, denoted [α]. The wavelength of light used λ (frequently the sodium D line) and the Celsius temperature θ are conventionally written as a subscript and superscript to the s ...
Geometrical Optics: Curved Mirrors Worksheet Part I:
... Drag the object back and forth. In this animation, when the image is on the left of the mirror it is a real image, but when it is on the right it is a virtual image. Place the object so that the image is to the right of the mirror (a virtual image). Now, let’s identify where your eye/brain thinks th ...
... Drag the object back and forth. In this animation, when the image is on the left of the mirror it is a real image, but when it is on the right it is a virtual image. Place the object so that the image is to the right of the mirror (a virtual image). Now, let’s identify where your eye/brain thinks th ...
f - Uplift Education
... In an ideal lens, all light rays from one point of the object would meet at the same point of the image, forming a clear image. The influences which cause different rays to converge to different points are called aberrations. object blurred image ...
... In an ideal lens, all light rays from one point of the object would meet at the same point of the image, forming a clear image. The influences which cause different rays to converge to different points are called aberrations. object blurred image ...
Wave Propagation - International Mathematical Union
... Law of Refraction (Snell 1626, Descartes 1637). A ray that hits the interface between two different media produces a refracted ray on the other side of the interface from the incident ray. The angle ß between the refracted ray and the normal is related to the angle a between the incident ray and the ...
... Law of Refraction (Snell 1626, Descartes 1637). A ray that hits the interface between two different media produces a refracted ray on the other side of the interface from the incident ray. The angle ß between the refracted ray and the normal is related to the angle a between the incident ray and the ...
Chapter 20-Light The Nature of Light Visible Light Is a Form of
... d. Moon and planets do not produce their own light e. Bioluminescence= biochemical process where organisms can produce their own light f. Artificial sources of light include candle, kerosene lamp, gasoline lamp, electric light, fluorescent light, neon light, sulfur lamp, laser light g. Sulfur lamp= ...
... d. Moon and planets do not produce their own light e. Bioluminescence= biochemical process where organisms can produce their own light f. Artificial sources of light include candle, kerosene lamp, gasoline lamp, electric light, fluorescent light, neon light, sulfur lamp, laser light g. Sulfur lamp= ...
The Hong Kong Polytechnic University
... Interferometer: An instrument designed to exploit the interference of light and the fringe patterns that result from optical path differences. An interferometer divides an initial beam into two or more parts that travel diverse optical paths and then reunite to produce an interference pattern. Accor ...
... Interferometer: An instrument designed to exploit the interference of light and the fringe patterns that result from optical path differences. An interferometer divides an initial beam into two or more parts that travel diverse optical paths and then reunite to produce an interference pattern. Accor ...
Activity: Emission spectroscopy and smart sensors
... Direct the output of the laser to the open end of the optical fiber. It is useful to have the fiber and light source well secured so that experiments testing smart sensor designs can be easily carried out. ...
... Direct the output of the laser to the open end of the optical fiber. It is useful to have the fiber and light source well secured so that experiments testing smart sensor designs can be easily carried out. ...
FA15Lec17 Optical Traps.Two
... (infinite bandwidth). Reduce bandwidth. Also: Operate at high force less noise due to finite Temp. Also be clever about how to differentiate noise from signal. ...
... (infinite bandwidth). Reduce bandwidth. Also: Operate at high force less noise due to finite Temp. Also be clever about how to differentiate noise from signal. ...
Phy 211: General Physics I
... image distance is therefore fixed at 1.8 cm (or 0.018 m). 3. When the eye cannot adequately focus an image on the retina, correction may be needed 4. The 4 common vision problems: a. Myopia (near sightedness, short far & near point) b. Hypermetropia (far sightedness, long far & near point) c. Astigm ...
... image distance is therefore fixed at 1.8 cm (or 0.018 m). 3. When the eye cannot adequately focus an image on the retina, correction may be needed 4. The 4 common vision problems: a. Myopia (near sightedness, short far & near point) b. Hypermetropia (far sightedness, long far & near point) c. Astigm ...
Topic 12: Spatial Light Modulators and Modern Optical Systems
... Range of technologies, the most promising are: Liquid Crystal: LC modulators switched by either thin-film transistors (transmissive displays), or silicon backplanes (reflective devices). Usable in all applications, but rather “slow”. Magneto-Optic: Pixelated crystal of Aluminum Garnet switched by ...
... Range of technologies, the most promising are: Liquid Crystal: LC modulators switched by either thin-film transistors (transmissive displays), or silicon backplanes (reflective devices). Usable in all applications, but rather “slow”. Magneto-Optic: Pixelated crystal of Aluminum Garnet switched by ...
Curved Mirrors - Mr Linseman`s wiki
... http://www.shermanlab.com/science/physics/optics/SphericalMirror.php ...
... http://www.shermanlab.com/science/physics/optics/SphericalMirror.php ...
Optical Properties of Condensed Matters
... luminesce strongly When electrons are promoted into the excited states of the molecule. The luminescence is Stokes shifted to lower energy compared to absorption, and typically occurs in the middle of the visible spectral region. The emission wavelength can be tuned by small alternation to the chemi ...
... luminesce strongly When electrons are promoted into the excited states of the molecule. The luminescence is Stokes shifted to lower energy compared to absorption, and typically occurs in the middle of the visible spectral region. The emission wavelength can be tuned by small alternation to the chemi ...
Properties of Waves
... • Describe the action of a thin converging lens on a beam of light • Use the term principal focus and focal length • Draw ray diagrams to illustrate the formation of a real image by a single lens • Draw ray diagrams to illustrate the formation of a virtual image by a single lens • Use and describe t ...
... • Describe the action of a thin converging lens on a beam of light • Use the term principal focus and focal length • Draw ray diagrams to illustrate the formation of a real image by a single lens • Draw ray diagrams to illustrate the formation of a virtual image by a single lens • Use and describe t ...
Convex Mirrors
... The amount of refraction depends upon the difference between the speeds of light in the two media. The index of refraction for a material is the ratio of the speed of light in a vacuum to the speed of the light in the material. • A low index of refraction (near 1) causes light to slow ...
... The amount of refraction depends upon the difference between the speeds of light in the two media. The index of refraction for a material is the ratio of the speed of light in a vacuum to the speed of the light in the material. • A low index of refraction (near 1) causes light to slow ...
File - Electrical Engineering
... a time when, eventually, the angle of refraction reaches 90° and the light is refracted along the boundary between the two materials. The angle of incidence which results in this effect is called the critical angle.We can calculate the value of the critical angle by assuming the angle of refraction ...
... a time when, eventually, the angle of refraction reaches 90° and the light is refracted along the boundary between the two materials. The angle of incidence which results in this effect is called the critical angle.We can calculate the value of the critical angle by assuming the angle of refraction ...
Lecture Notes
... Two converging lenses, each with a focal length of 0.12 m, are used in combination to form an image of an object located 0.36 m to the left of the left lens in the pair. The distance between the lenses is 0.24 m. (a)Where is the final image located relative to the lens on the right? (b) What is the ...
... Two converging lenses, each with a focal length of 0.12 m, are used in combination to form an image of an object located 0.36 m to the left of the left lens in the pair. The distance between the lenses is 0.24 m. (a)Where is the final image located relative to the lens on the right? (b) What is the ...