thermal radiation(redirected from Thermal light)
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radiation(rad-e-a'shon) [L. radiatio, a shining]
1. The process by which energy is propagated through space or matter.
2. The emission of rays in all directions from a common center.
3. Ionizing rays used for diagnostic or therapeutic purposes. Two types of radiation therapy are commonly used for patients with cancer: teletherapy and brachytherapy. See: brachytherapy
4. Any form of radiant energy emission or divergence, as of energy in all directions from luminous bodies, radiographical tubes, particle accelerators, radioactive elements, and fluorescent substances.
5. In neurology, a group of fibers that diverge from a common origin.
acoustic radiationAuditory radiation.
Ionizing electromagnetic radiation that can produce chemical changes, e.g., the damage done to skin by ultraviolet sunlight.
A band of fibers that connect auditory areas of the cerebral cortex with the medial geniculate body of the thalamus. Synonym: acoustic radiation
Total radioactivity from cosmic rays, natural radioactive materials, and other radiation that is present in a specific area.
braking radiationSynonym: bremsstrahlung radiation
Diagnostic radiation produced at the target of the anode in an x-ray tube. An electron is accelerated at high speed from the x-ray tube cathode filament. It interacts with the nuclear field of a target atom, changing direction and losing energy that is emitted in the form of an ionizing radiation photon. The result is a heterogeneous beam.Synonym: braking radiation
In radiology, the production of radiation in an anode caused by an interaction between an electron from the electron stream and an inner-shell electron of the target material. The result is an ejected electron, a positive atom, and an x-ray photon characteristic of the difference in binding energies between the atomic shells.
radiation of corpus callosum
All the fibers emanating from the corpus callosum into each cerebral hemisphere.
Radiation composed of discrete elements or particles such as elements of atomic nuclei, i.e., alpha, beta, neutron, positron, or proton particles.
Ionizing radiation from the sun and other extraterrestrial sources. It has a short wavelength, high velocity, and an exceptional ability to penetrate tissue. It accounts for about one tenth of the yearly total of ionizing radiation exposure for each person. Colloquially, it is known as “cosmic rays.”
Photons that travel at the speed of light. They exhibit both magnetic and electrical properties.See: electromagnetic spectrum for table
Radiation containing waves of various wavelengths.
Radiation containing photons of similar wavelength.
infrared radiationInfrared ray.
Radiation treatment accomplished by inserting sealed sources of a particle emitter directly into tissues.
Electromagnetic waves capable of producing ions after interaction with matter. Examples include x-rays, gamma rays, and beta particles.See: ionizing radiation injury
An overdose of ultraviolet irradiation resulting in erythema and, in exceptional cases, blister formation.
Electromagnetic waves at intensity levels below that known to cause obvious damage to living things. Low-level radiation includes that emitted by power lines, nuclear power plants, and appliances such as electric blankets, television sets, and computer terminals.
nonionizing radiationAbbreviation: NIR
Electromagnetic radiation that does not readily ionize atoms such as that in visible light, ultraviolet light, infrared light, microwaves, ultrasound, and radiofrequency emissions.
A system of fibers extending from the lateral geniculate body of the thalamus through the sublenticular portion of the internal capsule to the calcarine occipital cortex (striate area). Synonym: geniculocalcarine tract
Light rays that penetrate tissues only fractions of a millimeter, are absorbed by cells, and cause physical and biological changes. This type of radiation causes surface heating.
Radiation of heat by a source of light, as that from an electric bulb.
That radiation being emitted directly to the patient from an x-ray source.
The radiation of fibers from the cerebral cortex to the pyramidal tract.
Ionizing radiation that passes through the part being examined to make the radiographical image.
X-rays that have changed direction because of a collision with matter.
X-rays produced by the interaction between primary radiation and the substance being radiated.
Radiation from the sun; 60% is infrared and 40% is visible and ultraviolet.
spatially fractionated radiationAbbreviation: SFR
Radiation treatment applied in high doses to a large tumor through a grid designed to direct energy into multiple discrete regions of the mass.
Fibers originating in the corpus striatum and terminating principally in the substantia nigra of the midbrain.
A system of fibers consisting of three groups that emerge from the medial aspect of the lentiform nucleus and enter the subthalamic region, most terminating there but some continuing into the midbrain. Synonym: ansa lenticularis
Groups of fibers connecting the corpus striatum with the thalamus and subthalamus.
Radiation released by charged particles accelerated by a synchrotron. It may be used to obtain noninvasive images of body structures (e.g., the coronary arteries) or to study the structure of proteins, tissue samples, or other objects of biological or medical interest.
Groups of fibers connecting the thalamus with the cerebral hemispheres. These include frontal, centroparietal, occipital, and optic radiations.
Radiant energy extending from 3900 to 200 angstrom units (A.U.) Divided into near ultraviolet, which extends from 3900 to 2900 A.U., and far ultraviolet, which extends from 2900 to 200 A.U.
The radiation of the visible spectrum, which may be broken up into different wavelengths representing different colors:
Violet, 3900–4550 angstrom units (A.U.)
Blue, 4550–4920 A.U.
Green, 4920–5770 A.U.
Yellow, 5770–5970 A.U.
Orange, 5970–6220 A.U.
Red, 6220–7700 A.U.
1. A form of electromagnetic radiation with wavelengths in the range of 0.01 to 10 nm, frequencies from 3 × 1016 Hz to 3 × 1019 Hz, and energies in the range 120 eV to 120 keV.
2. Treatment with or exposure to x-rays.
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