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specifity âbizegi Fr.: spécifité The state or character of being → specific. |
specify 1) parsunidan; 2) âbizidan Fr.: préciser, spécifier 1) To mention or name specifically or definitely; state in detail. |
specimen nemuné (#) Fr.: specimen A part or an individual taken as exemplifying a whole mass or number; a typical animal, plant, mineral, part, etc. → sample. From L. specimen "mark, example, indication, sign, evidence," from speci- stem of specere "to look at," → -scope, + -men noun suffix denoting result or means. Nemuné, from nemudan "to show;" Mid.Pers. nimūdan, nimây- "to show," from O.Pers./Av. ni- "down; in, into," → ni- (PIE), + māy- "to measure;" cf. Skt. mati "measures," matra- "measure;" Gk. metron "measure;" L. metrum; PIE base *me- "to measure." |
speckle pakâl Fr.: tavelure 1) Optics:
An image defect, one of a large number of bright and dark spots, that
appears when an object is illuminated by monochromatic, highly
→ coherent light.
This phenomenon results from the → interference
of a number of randomly phased complex contributions of electromagnetic
→ wavefronts scattered from an object with
rough structure, such as a piece of paper, a display screen, or a metallic surface.
In particular, whenever the object is rough on the scale of an optical
wavelength, the image has a grainy appearance.
Also called speckle noise. Speckle "a speck or small spot, as a natural dot of color on skin, plumage, or foliage," from M.E.speck (from O.E. specca "small spot, stain," of unknown origin; probably related to Du. speckel "speck, speckle") + -le a noun suffix having originally a diminutive meaning. Pakâl, from pak "spot" (Lâri, Gerâši), pašy "mingled, confused" (Tâleši), probably related to pisé "dappled, variegated," pis, pisi "leprosy," neveštan "to write," pišé "profession," → professional astronomer; Mid.Pers. parš "speckled, spotted," pēsīdan "to color, adorn," pēsit "adorned;" O.Pers. pais- "to adorn, cut, engrave;" Av. paēs- "to paint, adorn," paēsa- "adornment;" cf. Skt. peś- "to adorn, hew out, decorate," piśáti "adorns; cuts;" Gk. poikilos "multicolored;" L. pingit "embroiders, paints;" O.C.S. pisati "to write;" O.H.G. fēh "multicolored;" Lith. piēšti "to draw, adorn;" PIE base *peik- "colored, speckled." |
speckle interferometry andarzaneš-sanji-ye pakâl Fr.: interférométrie des tavelures A technique for generating a clear composite image of a celestial object blurred by → atmospheric turbulence in which a large number of short-exposure photographs are mathematically correlated by a computer. By comparing the behavior of the → speckles in a series of images it is possible to approach the theoretical resolution of the telescope. → speckle; → interferometry. |
speckle lifetime omr-e pakâl Fr.: durée de vie de tavelures The time scale on which a stellar image changes significantly due to → atmospheric turbulence. It is proportional to the ratio r0/Δv, where r0 is the → Fried parameter and Δv the standard deviation of the distribution of wind velocities weighted by the turbulence structure coefficient. Typical lifetimes in the visible range from about 3 to 30 milliseconds. Omr "life-time;" from Ar. 'umr; pakâl, → speckle. |
speckle noise nufe-ye pakâl Fr.: bruit de tavelures An image defect associated with the → speckle phenomenon. |
spectral binâbi (#) Fr.: spectral Of or pertaining to a → spectrum. |
spectral classification radebandi-ye binâbi (#) Fr.: classification spectrale A system that assigns a → spectral type to a star according to characteristics of its spectrum. The earliest attempt to divide stars on the basis of their spectra was the → Secchi classification in the 1860s. This scheme paved the way for the → Harvard classification that led to the current → Morgan-Keenan classification of spectral types. In the Harvard system stars were originally thought to follow an evolutionary sequence from the "early" O and B types to the "late" K and M types. Although this is now known to be wrong, the terms → early-type star and → late-type star are still in use. In the Morgan-Keenan system stars are classified as type O, B, A, F, G, K, or M in order of decreasing → effective temperature, and each type further subdivided into subclasses from 0 (hottest, except for → O-type stars) to 9 (coolest). They are also accompanied by a → luminosity class. In the late 1990s, spectral types L and T were added to the sequence to accommodate the coolest stars and → brown dwarfs (with class Y reserved for the coolest brown dwarfs of all, as yet unobserved). → spectral; → classification. |
spectral coverage pušeš-e binâbi Fr.: couverture spectrale The → range of → wavelengths or frequencies (→ frequency) at which a → detector is sensitive. Same as → bandwidth. |
spectral density cagâli-ye binâbi Fr.: densité spectrale For a specified → bandwidth of radiation consisting of a continuous → frequency spectrum, the total → power in the bandwidth divided by the bandwidth. Spectral density describes how the power (or variance) of a time series is distributed with frequency. Also called power spectral density. |
spectral dispersion pâšeš-e binâbi Fr.: dispersion spectrale → dispersion. → spectral; → dispersion. |
spectral energy distribution (SED) vâbâžeš-e kâruž-e binâbi Fr.: distribution de l'énergie spectrale A plot showing the energy emitted by a source as a function of the radiation
wavelength or frequency. It is used in many branches of astronomy to characterize
astronomical sources, in particular mainly in → near infrared
and → middle infrared to study
→ protostars or
→ young stellar objects. The SED of these objects is
divided in four classes. → spectral; → energy; → distribution. |
spectral feature ârang-e binâb, ~ binâbi Fr.: motif spectral An emission or absorption mark in the spectrum of an astronomical object, of known or unknown origin, usually with complex structure. |
spectral index dišan-e binâbi Fr.: indice spectral 1) The → exponent
of the → frequency on which depends
the intensity of the → continuum emission, that is:
Fν∝ να.
The exponent (α) typically
takes positive values from 0 to 2 for → thermal emission,
while → non-thermal emission, such as
→ synchrotron radiation,
leads to negative values of the spectral index ranging from about -0.5 to -1.5. |
spectral line xatt-e binâbi Fr.: raie spectrale A dark or bright line in an otherwise uniform and continuous spectrum, resulting from an excess or deficiency of photons in a narrow wavelength range, compared with the nearby wavelengths. |
spectral range gostare-ye binâbi Fr.: domain spectral The observable spectral range provided by a spectroscope, as determined by the grating dispersion, camera focal length, and detector size. |
spectral region nâhiye-ye binâbi Fr.: région spectrale An extent of wavelengths into which the electromagnetic spectrum is divided; e.g. infrared or ultraviolet region. |
spectral resolution vâgošud-e binâb, ~ binâbi Fr.: résolution spectrale The capacity of a spectrograph to separate two adjacent spectral lines. The theoretical spectral resolution depends on the grating dispersion, grating position, pixel size, collimator and camera focal length, and the entrance slit-width. → spectral; → resolution. |
spectral response pâsox-e binâbi Fr.: réponse spectrale Domain of the electromagnetic spectrum over which a detector is sensitive. Same as spectral sensitivity. |
<< < -sc Sag sam sat sca sca Sch sci Sea sec sec see sel sem sen ser Sey Sha she sho sid sig SIM sim Sin ske sle Smi SNR sof sol sol sol sol sou sou spa spa spe spe spe sph spi spi Spo squ sta sta sta sta Ste ste ste sto str str str sub sub sub sun sup sup sup sup sur sus sym syn syz > >>