Loading ...
by a periodic structure on the surface of the substrate(passive) caused bydiffraction light
by a periodic structure on the surface of a substrate(passive) caused bydiffraction light
a film or articlecausingdiffraction of light
by a periodic structure in the interface of a cavity in an inside of the substrate(passive) caused bydiffraction light
by a periodic structure in the interface of a cavity in the inside of the substrate(passive) caused bydiffraction light
by a cavity interface periodic structure in the inside of the substrate(passive) caused bydiffraction light
by the cavity interface periodic structure in the inside of the substrate(passive) caused bydiffraction light
by the cavity(passive) caused bydiffraction light
Cataractscan causediffraction of light
smokecausesdiffraction of light
by a cavity interface(passive) caused bydiffraction light
Settling of small particles on the transparent surface of the modulescausediffraction of light
by a slit of width equivalent to one wavelength [ 1(passive) caused byDiffraction pattern
1930 Debye and Sears and Lucas and Biquarddiscoverdiffraction of light
by light transmission(passive) caused bydiffraction patterns
by light transmission through slits(passive) caused bydiffraction patterns
by the regular phase structure inside the polymer(passive) caused bydiffraction points
the light bending around them on the way to the retina(passive) caused bydiffraction patterns
The modulationcausesdiffraction patterns
their interaction with the holographic light source(passive) caused bydiffraction patterns
x - rays with related wavelengths to that spacingTo discoverdiffraction patterns
the vanes supporting the secondary mirror in reflector telescopes(passive) caused bydiffraction patterns
by stress(passive) caused bydiffraction angle
by high refractive index spherical lenses(passive) caused bydiffraction aberrations
s too crystallinecausingdiffraction peaks
partially ordered structurescausediffraction peaks
These polymers ... partially ordered structurescausediffraction peaks
by many obstacles(passive) caused bydiffraction spreading
High f / stop usemay causediffraction softening
As light passes through defective glass , beams split into color spectracausing" diffraction grating
by the plane ( 200 ) of the electro - mechanical transduction film or a peak of the X - ray diffraction caused by a plane ( 400 ) of the electro - mechanical transduction film before the peak separation is performed(passive) caused bydiffraction
the plane ( 200 ) of the electro - mechanical transduction film or a peak of the X - ray diffraction caused by a plane ( 400 ) of the electro - mechanical transduction film before the peak separation is performed(passive) caused bydiffraction
by the plane ( 200 ) or a plane ( 400 ) of the electro - mechanical transduction film(passive) caused bydiffraction
by the physics of light passing through an aperture(passive) is causedDiffraction
by direct light on the lens surface(passive) caused bythe diffraction
light striking the edges of the aperture blades as it passes through the lens(passive) is caused byDiffraction
The diffraction pattern obtained in an x - ray experiment ... the crystalcausedthe diffraction
small lens apertureswould causediffraction
by very small lens apertures(passive) caused bydiffraction
very small lens apertures(passive) caused bydiffraction
in visible softnessresultsin visible softness
to a decrease of the diffraction efficiency of zero - order diffraction lightleadsto a decrease of the diffraction efficiency of zero - order diffraction light
Natural opal color(passive) is caused byNatural opal color
at edgesto causeat edges
at edgesto causeat edges
ripples at edgesto causeripples at edges
in superpositionresultin superposition
from waves colliding into the regular spacing of a diffraction gratingcan ... resultfrom waves colliding into the regular spacing of a diffraction grating
each point source of lightcauseseach point source of light
to an increase in coma and astigmatismleadsto an increase in coma and astigmatism
from waves transmitting through a boundary ... as outlined belowresultfrom waves transmitting through a boundary ... as outlined below
The Airy pattern(passive) caused byThe Airy pattern
in the conclusionwill resultin the conclusion
a small amount of the star 's light to be distributed well outside the star 's Airy diskcausesa small amount of the star 's light to be distributed well outside the star 's Airy disk
from these variationsresultingfrom these variations
light to be diffracted into specific angles as contrasted to being scattered in all directionscauselight to be diffracted into specific angles as contrasted to being scattered in all directions
some fringing(passive) caused bysome fringing
to improvements in the spectroscopeledto improvements in the spectroscope
from the silicon substrateoriginatingfrom the silicon substrate
flashes of any color of the rainbow ( play of lightcan causeflashes of any color of the rainbow ( play of light
This resolution limit limit of lightcausesThis resolution limit limit of light
a fundamental limit to the resolution of optical systemssetsa fundamental limit to the resolution of optical systems
in by around f13 or so with the D800Ewill setin by around f13 or so with the D800E
in a loss of image sharpnessresultsin a loss of image sharpness
a loss in image sharpnessmay causea loss in image sharpness
loss of sharpness in our imagecausesloss of sharpness in our image
in a loss of image sharpnessresultsin a loss of image sharpness
light in the image to spread out over a small regioncauseslight in the image to spread out over a small region
The sun star ... the bending of light , by a small aperture in the lens(passive) is caused byThe sun star ... the bending of light , by a small aperture in the lens
the light passing through an aperture to spread out which causes points of an image not to be a pointcausesthe light passing through an aperture to spread out which causes points of an image not to be a point
flashes of any color of the rainbow which can be seen in opal?s color playcan causeflashes of any color of the rainbow which can be seen in opal?s color play
images to lose sharpness at high F - numberscausesimages to lose sharpness at high F - numbers
play of color in opal and dispersioncausesplay of color in opal and dispersion
light loss(passive) caused bylight loss
flashes of any color of the rainbow to be seen in an opal 's color playcan causeflashes of any color of the rainbow to be seen in an opal 's color play
images to become " soft " if the aperture in the lens gets very smallcausesimages to become " soft " if the aperture in the lens gets very small
the image to be soft at this aperturecausesthe image to be soft at this aperture
the optical resolution ((passive) caused bythe optical resolution (
a point source of lightcausesa point source of light
a minimum size on the spot that the laser can place its beam insetsa minimum size on the spot that the laser can place its beam in