An optical band pass filter is used to selectively allow a specific range of wavelengths of light to pass through while blocking others. This helps in controlling and manipulating the light's properties, such as its intensity and color, for various applications in fields like Photography, spectroscopy, and telecommunications.
Diffraction grating lenses work by splitting light into its component colors through interference patterns created by closely spaced lines on the lens. This manipulation of light allows for precise control and dispersion of light in optical systems.
Multiple reflections of light rays can create interesting optical effects, such as mirroring and kaleidoscopic patterns. They are also utilized in devices like periscopes and optical fibers to redirect and transmit light effectively. Understanding multiple reflections helps in the design of optical systems and can lead to better control and manipulation of light.
The marginal ray in optical systems is important because it represents the ray that passes through the outer edge of the lens or mirror. It helps determine the field of view and image quality of the optical system.
The object distance in optical physics refers to the distance between the object being viewed and the lens or mirror that is used to form an image of the object. It is an important factor in determining the characteristics of the image formed by the optical system.
The effective refractive index in optical waveguides determines how light propagates through the waveguide. It helps in understanding the speed and direction of light within the waveguide, which is crucial for designing and optimizing optical communication systems.
Diffraction grating lenses work by splitting light into its component colors through interference patterns created by closely spaced lines on the lens. This manipulation of light allows for precise control and dispersion of light in optical systems.
Optical equipment is any device that uses light to perform its function.
Light is created by manipulation of the information content of an image formed by coherent (one-wavelength) optical systems.
Arthur Ashkin has written: 'Optical trapping and manipulation of neutral particles using lasers' -- subject(s): Laser manipulation (Nuclear physics), Miniature electronic equipment
Multiple reflections of light rays can create interesting optical effects, such as mirroring and kaleidoscopic patterns. They are also utilized in devices like periscopes and optical fibers to redirect and transmit light effectively. Understanding multiple reflections helps in the design of optical systems and can lead to better control and manipulation of light.
Bradley L. Kessler has written: 'Optical closed-loop flight control demonstration' -- subject(s): Fly by wire control, Flight control, Electro-optics, Fly by light control, Optical control, Flight tests
The marginal ray in optical systems is important because it represents the ray that passes through the outer edge of the lens or mirror. It helps determine the field of view and image quality of the optical system.
Optical quartz is a high-purity form of quartz crystal known for its excellent optical properties, including transparency and low birefringence. It is often used in the manufacturing of optical components such as lenses, prisms, and windows, particularly in applications requiring precise light manipulation. Due to its stability and durability, optical quartz is also utilized in scientific instruments and telecommunications. Its unique properties make it essential in various fields, including electronics, photonics, and spectroscopy.
Peter H. Lehmann has written: 'Optical measurement systems for industrial inspection VII' -- subject(s): Optical methods, Quality control, Congresses, Optical detectors, Optical instruments, Industrial applications
Detector converts optical signal to electric signal
The object distance in optical physics refers to the distance between the object being viewed and the lens or mirror that is used to form an image of the object. It is an important factor in determining the characteristics of the image formed by the optical system.
The effective refractive index in optical waveguides determines how light propagates through the waveguide. It helps in understanding the speed and direction of light within the waveguide, which is crucial for designing and optimizing optical communication systems.