about
Kiwi forego vision in the guidance of their nocturnal activitiesThe anatomical relationships between the avian eye, orbit and sclerotic ring: implications for inferring activity patterns in extinct birdsWhy do only some hyperopes become strabismic?The representation of S-cone signals in primary visual cortex.Developmental changes in the balance of disparity, blur, and looming/proximity cues to drive ocular alignment and focus.Control at stability's edge minimizes energetic costs: expert stick balancing.Sensitivity of vergence responses of 5- to 10-week-old human infants.Experience-dependent and independent binocular correspondence of receptive field subregions in mouse visual cortex.Intervening inhibition underlies simple-cell receptive field structure in visual cortexThe effect of age on compensation for a negative lens and recovery from lens-induced myopia in tree shrews (Tupaia glis belangeri)The sensitivity of the 2- to 4-month-old human infant accommodation system.Spectacle lenses alter eye growth and the refractive status of young monkeys.Accommodative performance of children with unilateral amblyopia.The eye limits the brain's learning potential.Refractive state of tree shrew eyes measured with cortical visual evoked potentials.Trial frame refraction versus autorefraction among new patients in a low-vision clinic.The squirrel as a rodent model of the human visual system.Accommodation, acuity, and their relationship to emmetropization in infantsHigher order monochromatic aberrations of the human infant eyeThe stability of steady state accommodation in human infants.Human infants' accommodation responses to dynamic stimuli.Accommodative and vergence responses to conflicting blur and disparity stimuli during development.The Boston keratoprosthesis provides a wide depth of focus.Positive display polarity is advantageous for both younger and older adults.Vergence-accommodation conflicts hinder visual performance and cause visual fatigue.A computer touch-screen apparatus for training visual discriminations in rats.Paraxial analysis of the depth of field of a pseudophakic eye with accommodating intraocular lensReceptive field properties and laminar organization of lateral geniculate nucleus in the gray squirrel (Sciurus carolinensis).Focus cues affect perceived depth.Cues for the control of ocular accommodation and vergence during postnatal human development.Changes in the coupling between accommodation and vergence eye movements induced in human subjects by altering the effective interocular separation.Positive display polarity is particularly advantageous for small character sizes: implications for display design.Smaller pupil size and better proofreading performance with positive than with negative polarity displays.Spatial-frequency tuning and geniculocortical projections in the visual cortex (areas 17 and 18) of the pigmented ferret.Visual discrimination of objects differing in spatial depth by goldfish.Condition-dependent expression of red colour differs between stickleback species.Visual pigments in a palaeognath bird, the emu Dromaius novaehollandiae: implications for spectral sensitivity and the origin of ultraviolet vision.Quantifying the three-dimensional facial morphology of the laboratory rat with a focus on the vibrissae.
P2860
Q21144765-8F5993CA-119E-4790-9994-930BBD67479BQ24658036-CB82220B-E32F-41CC-9914-D0DDA889D2F1Q28295166-91DE8FE5-9188-490C-8DDE-40C146D72081Q30496424-5CBB1A89-D535-4EA6-890F-6027E6EFDB9DQ30660796-437515C3-566D-4DE0-B8C2-D4337494E455Q30782951-C49B772C-DFBE-4495-B27F-AA19A719DF40Q30827030-5D188424-8349-4B23-9DBB-350D33FDC4A9Q33582731-F06AA7A1-76E0-4B78-BE46-29E96185994DQ33639254-4B71D85A-9CEC-4003-B863-C0A2AF781C33Q33913928-374DEDF8-F909-4FDB-B700-562D428F7A1FQ33938327-CC4752C9-87FC-43B4-8090-9C9F8325FB18Q34297426-CCFEF390-2F06-4C14-93E9-645C7C381A3EQ35100404-317E9C76-F4AB-4085-A89D-EC994F8E64C3Q35889799-BDDD0E69-47C9-441C-A1B2-6713C83425E0Q35935210-BA9666B4-5F0C-40A1-BB19-FCD8B28ED4C3Q36523552-9D694F8A-BC00-490C-9033-A8C9A731EF94Q36614161-D2DA855B-BCC1-4EEE-A4B9-77C183C094FCQ37251756-355D5623-82AD-4CA7-8430-1CB474EFCC61Q37288636-F5BFEDBE-0A60-461B-AEEE-A16788036526Q37371187-BFCAA233-395F-478C-8274-6DF7F596749EQ37371211-55A14F5B-813E-488C-9652-E0496EF4D5EBQ37677849-14D5E646-5FAA-4624-994C-2B7EB5CC984AQ38417677-8A8C6C2E-C8BA-4BD3-ACA3-99B5DBF26A69Q40109813-E4300E97-83AB-4E87-AF65-488748B47580Q40837829-36C3DF03-1299-4A1A-97FD-E73DFAC5F105Q42106877-FCEE7A22-377A-42E1-9F80-CEA7F3C7675FQ42145416-BF2CA94F-1737-4581-BB60-0515262C109EQ42163476-5A02FFC3-35ED-45D2-891A-35FC1A29B55BQ43147561-6440EE5D-F0F5-4154-A1EC-1775672C1BA5Q43180112-8AD160E7-7DF6-4B65-9868-F8C648B5B6A3Q43483165-741600D5-E564-4318-B42F-2BF4BE40A4E1Q44661215-4AB94D75-7C25-4300-94E5-B56896894941Q47441820-BA3BA676-4D35-43B0-A7B9-5BF5B6AE1BBDQ48378358-4AB27202-0219-448C-A439-E2D589F3ED2BQ48871254-5868FACF-1C4B-48B2-89C2-70465824EEE8Q50690631-F36B25BF-15F7-47F1-8E74-B73EE9C4E4DAQ51660119-3893FD51-B895-482C-A8CB-5A500FA828CCQ54959890-F778AF64-CC16-46B0-B179-31CB927ECC63
P2860
description
1980 nî lūn-bûn
@nan
1980年の論文
@ja
1980年学术文章
@wuu
1980年学术文章
@zh
1980年学术文章
@zh-cn
1980年学术文章
@zh-hans
1980年学术文章
@zh-my
1980年学术文章
@zh-sg
1980年學術文章
@yue
1980年學術文章
@zh-hant
name
Depth of focus, eye size and visual acuity.
@en
Depth of focus, eye size and visual acuity.
@nl
type
label
Depth of focus, eye size and visual acuity.
@en
Depth of focus, eye size and visual acuity.
@nl
prefLabel
Depth of focus, eye size and visual acuity.
@en
Depth of focus, eye size and visual acuity.
@nl
P1433
P1476
Depth of focus, eye size and visual acuity.
@en
P2093
P304
P356
10.1016/0042-6989(80)90063-2
P577
1980-01-01T00:00:00Z