fluorescent X-rays - translation to ρωσικά
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fluorescent X-rays - translation to ρωσικά

SOMETIMES ABBREVIATED "HEX-RAYS"
HEX-Rays; High Energy X-rays; HEX-rays; High Energy X-ray; High energy X-rays
  • Two-dimensional [[powder diffraction]] setup for ''high-energy X-rays''. HEX-rays entering from the left are diffracted in forward direction at the sample and registered by a 2D detector such as an image plate.<ref name="Liss"/>

fluorescent X-rays      

общая лексика

флуоресцентные рентгеновские лучи

fluorescent lamp         
  • A 65-watt fluorescent lamp starting on a semi-resonant start circuit
  • A cold-cathode fluorescent lamp from an emergency-exit sign. Operating at a much higher voltage than other fluorescents, the lamp produces a low-amperage [[glow discharge]] rather than an arc, similar to a [[neon light]]. Without direct connection to line voltage, current is limited by the transformer alone, negating the need for a ballast.
  • Electronic ballast for fluorescent lamp, 2×58&nbsp;W
  • Fluorescent lamp with an electronic ballast.
  •  A [[Sankey diagram]] of energy losses in a fluorescent lamp. In modern designs, the biggest loss is the [[quantum efficiency]] of converting high-energy UV photons to lower-energy visible light photons.
  • [[Electronic ballast]] basic schematic
  • A ''preheat'' fluorescent lamp circuit using an automatic starting switch. A: Fluorescent tube, B: Power (+220 volts), C: Starter, D: Switch (bi-metallic thermostat), E: Capacitor, F: Filaments, G: Ballast
  • The "beat effect" problem created when shooting films under standard fluorescent lighting
  •  Starting a preheat lamp. The automatic starter switch flashes orange each time it attempts to start the lamp.
  • T12 and T8]] G13 bi-pin fluorescent lamps
  • Light from a fluorescent tube lamp reflected by a [[CD]] shows the individual bands of color.
  • frameless
  • [[Capacitive coupling]] with [[high-voltage power line]]s can light a lamp continuously at low intensity.
  • This tube failed after it had been turned on many times. Too much of the thermionic emission mix had sputtered off the cathodes, instead sticking to and blackening the glass.
  • The "beat effect" problem created when shooting photos under standard fluorescent lighting
  • A [[germicidal lamp]] uses a low-pressure mercury-vapor glow discharge identical to that in a fluorescent lamp, but the uncoated [[fused quartz]] envelope allows ultraviolet radiation to transmit.
  • A helical cool-white fluorescent lamp reflected in a [[diffraction grating]] reveals the various [[spectral lines]] which make up the light.
  • Thermal image of a helical fluorescent lamp.
  • The [[color temperature]] of different electric lamps
  • Different ballasts for fluorescent and discharge lamps
  • Top: two non-integrated [[compact fluorescent lamp]]s. Bottom: two fluorescent tube lamps. Both types require a ballast in the [[light fixture]].  A matchstick, left, is shown for scale.
  • ballast]] continually heats the [[cathode]]s at the ends of the lamps. This ballast runs two F40T12 lamps in series.
  • Compact fluorescent lamp that has reached end of life because of mercury adsorption. Light is produced only by the base argon fill.
  • ballast]] for 18–20&nbsp;W
  • [[Peter Cooper Hewitt]]
  • Electronic fluorescent lamp starters
  • frameless
  • frameless
  • A ''preheat'' fluorescent lamp "starter" (automatic starting switch)
  • T12 fluorescent tubes. The first two are rapid start, (for "tombstone" and socket holders respectively) while the third is an instant-start lamp. The instant-start  has a characteristic, rounded, single pin, for plugging into the spring-loaded socket holders.
  • [[Electronic ballast]]s and different compact fluorescent lamps
  • 0-7506-4637-3}}, pp. 21-12.</ref>
  • Fluorescent spectra in comparison with other forms of lighting. Clockwise from upper left: Fluorescent lamp, [[incandescent bulb]], [[candle]] flame and [[LED lighting]].
  • frameless
LIGHT SOURCE
Fluorescent light; Fluorescent light bulb; Fluorescent tube; Fluorescent lamps; CCFL; Overdriven fluorescent light; Overdriven fluorescent lights; Fluorescent lighting; Fluorescent bulb; Fluorescent lights; Flourescent tube; Tube lamp; Tube light; Fluorescent light tube; Fluorescent light-tube; Cold-cathode fluorescent lamp; Flourescent light; Flourescent light bulb; Flat fluorescent lamp; Flat (type) Fluorescent Lamp; Tubelight; Cold cathode fluorescent lamp; Fluorescent bulbs; Flourescent lights; Fluorescent lightbulb; Lamp starter; Fluorescent strip lights; Fluorescent strip light; Flourescent bulb; Vapor glow lamp; Flourescent lamp; Cold Cathode Fluorescent Lamp; Cold Cathode Fluorescent Lamp (CCFL); Glow starter; Fluorescent light bulbs; Fluorescent light-bulb; ODNO; Odno; Tube lights; Halophosphate; Fluorescent Light; Cold-cathode fluorescent lamp (CCFL); Fluorescent Lights; Fluorescent-lighting
лампа дневного света
fluorescent tube         
  • A 65-watt fluorescent lamp starting on a semi-resonant start circuit
  • A cold-cathode fluorescent lamp from an emergency-exit sign. Operating at a much higher voltage than other fluorescents, the lamp produces a low-amperage [[glow discharge]] rather than an arc, similar to a [[neon light]]. Without direct connection to line voltage, current is limited by the transformer alone, negating the need for a ballast.
  • Electronic ballast for fluorescent lamp, 2×58&nbsp;W
  • Fluorescent lamp with an electronic ballast.
  •  A [[Sankey diagram]] of energy losses in a fluorescent lamp. In modern designs, the biggest loss is the [[quantum efficiency]] of converting high-energy UV photons to lower-energy visible light photons.
  • [[Electronic ballast]] basic schematic
  • A ''preheat'' fluorescent lamp circuit using an automatic starting switch. A: Fluorescent tube, B: Power (+220 volts), C: Starter, D: Switch (bi-metallic thermostat), E: Capacitor, F: Filaments, G: Ballast
  • The "beat effect" problem created when shooting films under standard fluorescent lighting
  •  Starting a preheat lamp. The automatic starter switch flashes orange each time it attempts to start the lamp.
  • T12 and T8]] G13 bi-pin fluorescent lamps
  • Light from a fluorescent tube lamp reflected by a [[CD]] shows the individual bands of color.
  • frameless
  • [[Capacitive coupling]] with [[high-voltage power line]]s can light a lamp continuously at low intensity.
  • This tube failed after it had been turned on many times. Too much of the thermionic emission mix had sputtered off the cathodes, instead sticking to and blackening the glass.
  • The "beat effect" problem created when shooting photos under standard fluorescent lighting
  • A [[germicidal lamp]] uses a low-pressure mercury-vapor glow discharge identical to that in a fluorescent lamp, but the uncoated [[fused quartz]] envelope allows ultraviolet radiation to transmit.
  • A helical cool-white fluorescent lamp reflected in a [[diffraction grating]] reveals the various [[spectral lines]] which make up the light.
  • Thermal image of a helical fluorescent lamp.
  • The [[color temperature]] of different electric lamps
  • Different ballasts for fluorescent and discharge lamps
  • Top: two non-integrated [[compact fluorescent lamp]]s. Bottom: two fluorescent tube lamps. Both types require a ballast in the [[light fixture]].  A matchstick, left, is shown for scale.
  • ballast]] continually heats the [[cathode]]s at the ends of the lamps. This ballast runs two F40T12 lamps in series.
  • Compact fluorescent lamp that has reached end of life because of mercury adsorption. Light is produced only by the base argon fill.
  • ballast]] for 18–20&nbsp;W
  • [[Peter Cooper Hewitt]]
  • Electronic fluorescent lamp starters
  • frameless
  • frameless
  • A ''preheat'' fluorescent lamp "starter" (automatic starting switch)
  • T12 fluorescent tubes. The first two are rapid start, (for "tombstone" and socket holders respectively) while the third is an instant-start lamp. The instant-start  has a characteristic, rounded, single pin, for plugging into the spring-loaded socket holders.
  • [[Electronic ballast]]s and different compact fluorescent lamps
  • 0-7506-4637-3}}, pp. 21-12.</ref>
  • Fluorescent spectra in comparison with other forms of lighting. Clockwise from upper left: Fluorescent lamp, [[incandescent bulb]], [[candle]] flame and [[LED lighting]].
  • frameless
LIGHT SOURCE
Fluorescent light; Fluorescent light bulb; Fluorescent tube; Fluorescent lamps; CCFL; Overdriven fluorescent light; Overdriven fluorescent lights; Fluorescent lighting; Fluorescent bulb; Fluorescent lights; Flourescent tube; Tube lamp; Tube light; Fluorescent light tube; Fluorescent light-tube; Cold-cathode fluorescent lamp; Flourescent light; Flourescent light bulb; Flat fluorescent lamp; Flat (type) Fluorescent Lamp; Tubelight; Cold cathode fluorescent lamp; Fluorescent bulbs; Flourescent lights; Fluorescent lightbulb; Lamp starter; Fluorescent strip lights; Fluorescent strip light; Flourescent bulb; Vapor glow lamp; Flourescent lamp; Cold Cathode Fluorescent Lamp; Cold Cathode Fluorescent Lamp (CCFL); Glow starter; Fluorescent light bulbs; Fluorescent light-bulb; ODNO; Odno; Tube lights; Halophosphate; Fluorescent Light; Cold-cathode fluorescent lamp (CCFL); Fluorescent Lights; Fluorescent-lighting

общая лексика

флуоресцентная трубка

Ορισμός

АЛЬФОНС X
Мудрый (1221-84) , король Кастилии и Леона с 1252. Отвоевал у арабов Херес, Кадис и др. Централизаторская политика Альфонса Х натолкнулась на сопротивление знати, в 1282 фактически был лишен власти (править стал его сын Санчо).

Βικιπαίδεια

High-energy X-rays

High-energy X-rays or HEX-rays are very hard X-rays, with typical energies of 80–1000 keV (1 MeV), about one order of magnitude higher than conventional X-rays used for X-ray crystallography (and well into gamma-ray energies over 120 keV). They are produced at modern synchrotron radiation sources such as the beamline ID15 at the European Synchrotron Radiation Facility (ESRF). The main benefit is the deep penetration into matter which makes them a probe for thick samples in physics and materials science and permits an in-air sample environment and operation. Scattering angles are small and diffraction directed forward allows for simple detector setups.

High energy (megavolt) X-rays are also used in cancer therapy, using beams generated by linear accelerators to suppress tumors.

Μετάφραση του &#39fluorescent X-rays&#39 σε Ρωσικά