n.

The outermost shell of the atmosphere, between the mesosphere and outer space, where temperatures increase steadily with altitude.

thermospheric ther'mo·spher'ic (-sfîr'ĭk, -sfĕr'ĭk) adj.

A rarefied portion of the atmosphere, lying in a spherical shell between 50 and 300 mi (80 and 500 km) above the Earth's surface, where the temperature increases dramatically with altitude. The thermosphere responds to the variable outputs of the Sun, the ultraviolet radiation at wavelengths less than 200 nanometers, and the solar wind plasma that flows outward from the Sun and interacts with the Earth's geomagnetic field. This interaction energizes the plasma, accelerates charged particles into the thermosphere, and produces the aurora borealis and aurora australis, which are nearly circular-shaped regions of luminosity that surround the magnetic north and south poles respectively. Embedded within the thermosphere is the ionosphere, a weakly ionized plasma. See also Ionosphere; Magnetosphere; Solar wind.

In the thermosphere, these molecular species are subjected to intense solar ultraviolet radiation and photodissociation that gradually turns the molecular species into the atomic species oxygen, nitrogen, and hydrogen. Up to above 60 mi (100 km), atmospheric turbulence keeps the atmosphere well mixed, with the molecular concentrations dominating in the lower atmosphere. Above 60 mi, solar ultraviolet radiation most strongly dissociates molecular oxygen, and there is less mixing from atmospheric turbulence. The result is a transition area where molecular diffusion dominates and atmospheric species settle according to their molecular and atomic weights. Above 60 mi, atomic oxygen is the dominant species. See also Atmosphere.

About 60% of the solar ultraviolet energy absorbed in the thermosphere and ionosphere heats the ambient neutral gas and ionospheric plasma; 20% is radiated out of the thermosphere as airglow from excited atoms and molecules; and 20% is stored as chemical energy of the dissociated oxygen and nitrogen molecules, which is released later when recombination of the atomic species occurs. Most of the neutral gas heating that establishes the basic temperature structure of the thermosphere is derived from excess energy released by the products of ion-neutral and neutral chemical reactions occurring in the thermosphere and ionosphere. See also Airglow; Ultraviolet radiation.

The average vertical temperature profile is determined by a balance of local solar heating by the downward conduction of molecular thermal product to the region of minimum temperature near 50 mi (80 km). For heat to be conducted downward within the thermosphere, the temperature of the thermosphere must increase with altitude. The global mean temperature increases from about 200 K (−100°F) near 50 mi to 700–1400 K (800–2100°F) above 180 mi (300 km), depending upon the intensity of solar ultraviolet radiation reaching the Earth. Above 180 mi, molecular thermal conduction occurs so fast that vertical temperature differences are largely eliminated; the isothermal temperature in the upper thermosphere is called the exosphere temperature.

As the Earth rotates, absorption of solar energy in the thermosphere undergoes a daily variation. Dayside heating causes the atmosphere to expand, and the loss of heat at night causes it to contract. This heating pattern creates pressure differences that drive a global circulation, transporting heat from the warm dayside to the cool nightside.

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That part of the atmosphere, starting at about 85 km above the earth, the top of the mesosphere, extending to the uttermost fringe of the atmosphere. Here, temperatures increase with height. The warming of the thermosphere comes from the photo-dissociation of oxygen molecules, 50% of which dissociate into atomic oxygen, absorbing solar ultraviolet radiation.

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Dansk (Danish)
n. - termosfære

Nederlands (Dutch)
thermosfeer

Français (French)
n. - thermosphère

Deutsch (German)
n. - Thermosphäre

Ελληνική (Greek)
n. - (μετεωρ.) θερμόσφαιρα

Italiano (Italian)
termosfera

Português (Portuguese)
n. - termosfera (f)

Русский (Russian)
термосфера

Español (Spanish)
n. - termosfera

Svenska (Swedish)
n. - termosfär

中文（简体） (Chinese (Simplified))
热大气层, 热电离层

中文（繁體） (Chinese (Traditional))
n. - 熱大氣層, 熱電離層

한국어 (Korean)
n. - 온도권, 열권

日本語 (Japanese)
n. - 熱圏

العربيه (Arabic)
‏(الاسم) طبقه الغلاف الجوي الواقعه بي الميزوسفير والأكسوسفير‏

עברית (Hebrew)
n. - ‮איזור האטמוספרה של כדור-הארץ שבו עולה החום עם הגובה, תרמוספירה‬

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