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the thickness error of the light transmission layer 4(passive) caused bya spherical aberration
the thickness error of the light transmission layer as low as Become(passive) caused byspherical aberration
the thickness error of the light transmission layer 1 c occurs(passive) caused bya spherical aberration
the thickness error of a light transmission layer that covers a recording layer(passive) caused bya spherical aberration
the thickness error of the light transmission layer of the optical disk recorded in a predetermined position of the optical disk(passive) caused bya spherical aberration
a thickness error of the transparent substrate of the optical recording medium(passive) caused byspherical aberration
a thickness error of a cover layer of the optical disc 100(passive) caused bya spherical aberration
thickness error of c Can be(passive) caused byspherical aberration
the thickness error of the transparent substrate 8(passive) caused bythe spherical aberration
the thickness error of the transparent substrate 27(passive) caused bythe spherical aberration
the thickness error of the transparent substrate 49(passive) caused bythe spherical aberration
the substrate thickness error 0.6 mm(passive) caused byspherical aberration
a substrate thickness error of optical recording medium(passive) caused bySpherical aberration
the thickness error of the cover layer of the disk 1 in accordance with the voltage(passive) caused byspherical aberration
a thickness error in the cover layer 10e of the optical disc 10(passive) caused byspherical aberration
a thickness error of a light transmitting layer 4 ( transmissive substrate , cover layer ) of the optical disk 1(passive) caused bya spherical aberration
the thickness error of a light transmission layer , when a collimator lens is moved in an optical axis direction , the light amount incident to an objective lens is changed(passive) caused bya spherical aberration
Such a thickness error of the transmissive substratecausesa spherical aberration
the thickness error of the light transmitting layer 103(passive) caused byspherical aberration
thickness variation of the recording medium 50(passive) caused byspherical aberration
thickness variation of a recording medium US20050286376A1(passive) caused byspherical aberration
thickness variation of recording medium JP3794940B2(passive) caused byspherical aberration
the thickness error detected by the signal - processing unit 100(passive) caused bythe spherical aberration
the thickness error of the surface cover layer(passive) caused bya spherical aberration
a thickness error of the first protective layer(passive) caused bya spherical aberration
a thickness error of the light transmitting layer of the optical disc(passive) caused byspherical aberration
a thickness error of a cover layer according to a voltage applied to each electrode ( for example , Non - Patent Document 2(passive) caused byspherical aberration
a substrate thickness error of the first blue - ray optical recording medium and coma aberration caused by tilt of the second blue - ray optical recording medium , and an optical information processing apparatus using it(passive) caused byspherical aberration
thickness variation of a recording medium US 7035186(passive) caused byspherical aberration
thickness variation of a recording medium US20050063291A1 ( en(passive) caused byspherical aberration
thickness variation of a recording medium US6692630B2 ( en(passive) caused byspherical aberration
a substrate thickness error of the medium and dynamically controls the lenses of the aberration compensation optical system 104 , so that the optimum characteristic can be obtained(passive) caused bydeteriorative spherical aberration
a base material thickness error of an optical disk 6(passive) caused byspherical aberration
a base material thickness error of an optical disk [ 0105(passive) caused byspherical aberration
a thickness error of a transparent layer of the optical disc(passive) caused bya spherical aberration
protective layer thickness error in the dish 1(passive) is caused bythe spherical aberration
thickness variation of a recording medium without being affected by defocus(passive) caused byspherical aberration
thickness error of light transmission layer Aberration correcting mechanism for controlling the spherical aberration correction mechanism A spherical aberration correction mechanism control device for controlling the operation of The light read by a device that reads information of the transmission layer(passive) caused byspherical aberration
the thickness error of a surface resin layer of an optical disk(passive) caused bya spherical aberration
a thickness error of an optical disc only by changing the degree of divergence / convergence of the light incident on the objective lens(passive) caused bya spherical aberration
significant focus shift(passive) caused bysignificant focus shift
a frontward focus shiftcausesa frontward focus shift
an effect called “ focus shift(passive) caused byan effect called “ focus shift
problems like focus shiftalso causesproblems like focus shift
to focus shift which further complicates optimal focusingleadsto focus shift which further complicates optimal focusing
Quits Sony A7 Focus Shift(passive) Caused byQuits Sony A7 Focus Shift
a focus shift at nearer subject distances as the lens is stopped downcausesa focus shift at nearer subject distances as the lens is stopped down
a focus shift with changing pupil size , known in ophthalmology as night myopiacausesa focus shift with changing pupil size , known in ophthalmology as night myopia
focus shift , hyper - scattered focus which made it a tough nut for AF microadjustmentscausesfocus shift , hyper - scattered focus which made it a tough nut for AF microadjustments
from the thickness deviation of the recording medium where an objective lens is axially displaced from the compensatorresultingfrom the thickness deviation of the recording medium where an objective lens is axially displaced from the compensator
to the typical low contrast haze at f/1.4 ... and also to some focus shift ... especially at closer distancesleadsto the typical low contrast haze at f/1.4 ... and also to some focus shift ... especially at closer distances
from thickness deviation of a recording medium in an optical pickup where the objective lens has an NA of 0.7 or greaterresultingfrom thickness deviation of a recording medium in an optical pickup where the objective lens has an NA of 0.7 or greater
from a thickness deviation of a recording medium and an optical pickup using the spherical aberration compensatorresultingfrom a thickness deviation of a recording medium and an optical pickup using the spherical aberration compensator
focus shift ... i.e. , the best focus will be aperture - dependent and the focus set by AF wide open therefore not match the best focus with the lens stopped downwill ... causefocus shift ... i.e. , the best focus will be aperture - dependent and the focus set by AF wide open therefore not match the best focus with the lens stopped down
on each optical surface of the objective lenscausedon each optical surface of the objective lens
from a change in refractive index of objective lens OBJ increasesresultingfrom a change in refractive index of objective lens OBJ increases
softness in the edges of an imagecausessoftness in the edges of an image
when the transparent substrate has a thickness errorcausedwhen the transparent substrate has a thickness error
from differences in recording medium thickness and in wavelengthresultingfrom differences in recording medium thickness and in wavelength
when the first laser beam is used in the optical information recording / reproducing device according to the comparative examplecausedwhen the first laser beam is used in the optical information recording / reproducing device according to the comparative example
in the zooming sectioncreatedin the zooming section
from zooming operationresultingfrom zooming operation
in a refractive lens part of the objective lenscausedin a refractive lens part of the objective lens
in the objective lens or SIL as mentioned latercausedin the objective lens or SIL as mentioned later
when the optical disc D3 is used , the objective lens 10 satisfying the condition ( 10causedwhen the optical disc D3 is used , the objective lens 10 satisfying the condition ( 10
device 34settingdevice 34
when the light with a wavelength of 780 nm passes through the protective layer having a thickness of 1.2 mm of the optical disc 105causedwhen the light with a wavelength of 780 nm passes through the protective layer having a thickness of 1.2 mm of the optical disc 105
from incorrect grinding and polishing by the contractorresultingfrom incorrect grinding and polishing by the contractor
a softness of the image in the center of the fieldcausesa softness of the image in the center of the field
according to the light transmitting layer thickness of the second information recording mediumcreatedaccording to the light transmitting layer thickness of the second information recording medium
due to the defocusis causeddue to the defocus
when the first optical disc is used , FIGcausedwhen the first optical disc is used , FIG
for an information surface for which focus control is workingis setfor an information surface for which focus control is working
optical distortion(passive) caused byoptical distortion
in the optical system of the optical pick - up device 10causedin the optical system of the optical pick - up device 10
due to the difference in the type of recording mediumcauseddue to the difference in the type of recording medium
in generating a blurry image of the informationresultsin generating a blurry image of the information
in generating a blurry image of the dataresultsin generating a blurry image of the data
from the thickness - manufacturing errors of the objective lens and transparent substratehas resultedfrom the thickness - manufacturing errors of the objective lens and transparent substrate
from manufacturing errors in the recording mediumresultingfrom manufacturing errors in the recording medium