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¿µ¹® electron microscope ÇÑ±Û ÀüÀÚÇö¹Ì°æ
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  Àü±â ¸¶´ç ¶Ç´Â Àڱ⠸¶´çÀ» ÀÌ¿ëÇÏ¿© ÀüÀÚ·ù¸¦ ÀüÀÚ ·»Áî¿¡ Áý¼Ó½ÃÄÑ, ±× Åë·Î¿¡ ³õÀΠǥº»ÀÇ »óÀ» È®´ëÇϴ ÀåÄ¡. ±¤ÇРÇö¹Ì°æº¸´Ù ÈξÀ ¶Ù¾î³­ ºÐÇØ ´É·ÂÀ» °¡Áø´Ù. 
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  • ¿µ¹®
    ÇѱÛ
  • acousto-optics
    À½ÇⱤÇÐ
  • crystal optics
    °áÁ¤±¤ÇÐ
  • geometric optics
    ±âÇϱ¤ÇÐ
  • optics
    ±¤ÇÐ
  • electron
    ÀüÀÚ
  • electron affinity
    ÀüÀÚģȭ·Â
  • electron beam
    ÀüÀÚ¼±, ÀüÀÚºö
  • electron capture
    ÀüÀÚÆ÷ȹ
  • electron carrier
    ÀüÀÚ¿î¹Ýü
  • electron configuration
    ÀüÀÚ¹èÄ¡
  • electron density
    ÀüÀڹеµ
  • electron diffraction
    ÀüÀÚȸÀý
  • electron emission
    ÀüÀÚ¹æÃâ
  • electron interrupter
    ÀüÀÚÂ÷´Ü±â
  • electron microscope
    ÀüÀÚÇö¹Ì°æ
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  • ¿µ¹®
    ÇѱÛ
  • optics
    ±¤ÇÐ
  • electron
    ÀüÀÚ
  • electron microscope
    ÀüÀÚÇö¹Ì°æ
  • transmission electron microscope
    Åõ°úÀüÀÚÇö¹Ì°æ
¿¾ ´ëÇÑÀÇÇù ÀÇÇпë¾î »çÀü °Ë»ö À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 1
  • ¿µ¹®
    ÇѱÛ
  • acousto-optics
    À½ÇⱤÇÐ
  • crystal optics
    °áÁ¤±¤ÇÐ
  • geometric optics
    ±âÇϱ¤ÇÐ
  • optics
    ±¤ÇÐ
  • electron affinity
    ÀüÀÚģȭ·Â
  • electron microscopic autoradiography
    ÀüÀÚÇö¹Ì°æÀÚ°¡¹æ»ç¼±¼ú
  • electron beam
    ÀüÀÚ¼±
  • electron capture
    ÀüÀÚÆ÷ȹ
  • electron carrier
    ÀüÀÚ¿î¹Ýü
  • electron configuration
    ÀüÀÚ¹èÄ¡
  • orbital electron capture
    ±ËµµÀüÀÚÆ÷ȹ
  • electron density
    ÀüÀڹеµ
  • electron diffraction
    ÀüÀÚȸÀý
  • electron capture detector
    ÀüÀÚÆ÷ÂøÅ½Áö±â
  • electron
    ÀüÀÚ
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  • ¿µ¹®
    ÇѱÛ
  • acousto-optics
    À½Çâ-±¤ÇÐ
  • geometric optics
    ±âÇϱ¤ÇÐ
  • physical optics
    ¹°¸®±¤ÇÐ(ÚªìµÎÃùÊ).
  • physiological optics
    »ý¸®±¤ÇÐ
  • free electron
    ÀÚÀ¯ÀüÀÚ(í»ë¦ï³í­).
  • free electron
    ÀÚÀ¯ÀüÀÚ
  • high electron density
    °íÀüÀڹеµ(ÍÔï³í­ÚËöô).
  • immune electron microscopy
    ¸é¿ªÀüÀÚÇö¹Ì°æ¹ý.
  • immune-electron microscopy
    ¸é¿ªÀüÀÚÇö¹Ì°æ¹ý
  • immunologic electron microscopy
    ¸é¿ªÀüÀÚÇö¹Ì°æ¹ý.
  • positive electron
    ¾çÀüÀÚ
  • recoil electron
    ¹ÝµµÀüÀÚ
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  • ¿µ¹®
    ÇѱÛ
  • odd electron ; unpaired electron
    ºÒ´ëÀüÀÚ, ºñ´ëÀüÀÚ.
  • odd electron ; unpaired electron
    ȦÀüÀÚ.
  • acousto-optics
    À½Çâ-±¤ÇÐ
  • crystal optics
    °áÁ¤±¤ÇÐ.
  • geometric optics
    ±âÇϱ¤ÇÐ
  • optics
    ±¤ÇÐ(ÎÃùÊ).
  • physical optics
    ¹°¸®±¤ÇÐ(ÚªìµÎÃùÊ).
  • physiological optics
    »ý¸®±¤ÇÐ
  • auger electron
    ¿ÀÁ¦ÀüÀÚ
  • electron
    ÀüÀÚ
  • electron
    ÀüÀÚ(ï³í­)
  • electron affinity
    ÀüÀÚģȭ·Â(¡­öÑûúæ³).
  • electron avalanche
    ÀüÀÚ»çÅÂ(¡­ÞÞ÷À).
  • electron beam
    ÀüÀÚ¼±(ï³í­àÊ).
  • electron beam contamination
    ÀüÀÚ¼±¿À¿°
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  • ¿µ¹®
    ÇѱÛ
  • conversion electron
    ÀüȯÀüÀÚ(ï®üµï³í­)
  • cyclic electron flow
    ¼øÈ¯(âàü») ÀüÀÚ(ï³í­) È帧
  • electron
    ÀüÀÚ(ï³í­)
  • electron acceptor
    ÀüÀÚ ¼ö³³Ã¼(ï³í­ áôÒ¡ô÷)
  • electron affinity
    "ÀüÀÚ Ä£È­¼º(ï³í­öÑûúàõ)(µµ,Óø)"
  • electron capture
    ÀüÀÚ Æ÷ȹ(ï³í­øÚüò)
  • electron carrier
    ÀüÀÚ¿î¹ÝÀÚ(ï³í­ê¡Úæí­)
  • electron diffraction
    ÀüÀÚȸÀý(ï³í­üÞï¹)
  • electron donor
    ÀüÀÚ°ø¿©Ã¼(ï³í­Íêæ¨ô÷)
  • electron-exchange resin
    ÀüÀÚ±³È¯ ¼öÁö(ï³í­Îßüµâ§ò·)
  • electron ionization mass spectrometry
    ÀüÀÚ(ï³í­)ÀÌ¿ÂÈ­(ûù) Áú·® ºÐ¼®¹ý(òõÕáÝÂà°Ûö)
  • electron magnetic resonance
    ÀüÀÚ ÀÚ±â°ø¸í(ï³í­í¸Ñ¨ÍìÙ°)
  • electron microscope
    ÀüÀÚÇö¹Ì°æ(ï³í­úéÚ°Ìð)
  • electron microscope radioautography
    ÀüÀÚÇö¹Ì°æ ÀÚ°¡¹æ»ç±â·Ï¹ý(ï³í­úéÚ°Ìðí»Ê«Û¯ÞÒÑÀÖâÛö)
  • electron pair bond
    ÀüÀÚ½Ö °áÇÕ(ï³í­äªÌ¿ùê)
KI ÀÇÇпë¾î »çÀü °Ë»ö À¯»ç °Ë»ö °á°ú : 14 ÆäÀÌÁö: 1
  • ¿µ¹®
    ÇѱÛ
  • acousto-optics
    À½Çâ-±¤ÇÐ
  • electron
    ÀüÀÚ
  • electron beam
    ÀüÀÚ¼±
  • electron capture
    ÀüÀÚÆ÷Âø
  • electron density
    ÀüÀڹеµ
  • electron emission
    ÀüÀÚ¹æÃâ
  • electron microscope
    ÀüÀÚÇö¹Ì°æ
  • electron pair
    ÀüÀÚ½Ö
  • electron ray
    ÀüÀÚ¼±
  • electron volt
    ÀüÀÚº¼Æ®
  • electron wave
    ÀüÀÚÆÄ
  • free electron
    ÀÚÀ¯ ÀüÀÚ
  • proton electron dipole dipole interaction
    ¾çÀÚÀüÀÚ½Ö±ØÀÚ½Ö±ØÀÚ»óÈ£¹ÝÀÀ
  • recoil electron
    ¹ÝµµÀüÀÚ
KMLE ÀÇÇоà¾î »çÀü À¯»ç °Ë»ö °á°ú : 5 ÆäÀÌÁö: 1
EM early memory; ejection murmur; electromagnetic; electron micrograph; electron microscopy, electron m...
DCO Diploma of the College of Optics
opt best [Lat. optimus]; optics, optician
EI Edmonton injector; electrolyte imbalance; electron impact; electron ionization; emotionally impaired...
E/M electron microscope, electron microscopy; evaluation and management
KMLE ÀÚµ¿ÃßÃâ ÀÇÇоà¾î »çÀü À¯»ç °Ë»ö °á°ú : 5 ÆäÀÌÁö: 1
AES Augar electron spectroscopy
BSE Back scattered electron
BEI Backscattered Electron Imaging
CBED Convergent Beam Electron Diffraction
cryo-EM Cryo-electron microscopy
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  • ¿µ¹®
    ÇѱÛ
    ¼³¸í
  • electron
    ÀüÀÚ
    À½ Àü±âÀÇ ÃÖ¼Ò ´ÜÀ§ ¶Ç´Â ÀÚ±â ÀÔÀÚ. Àý´ë Á¤Àü±â ´ÜÀ§. 4.77*10-10 ¶Ç´Â Àý´ë ÀüÀڱ⠴ÜÀ§ 1.59*10-20 ¿¡ »ó´çÇϸç, ±×ÀÇ Áú·®Àº Àû´çÇÑ ¼Óµµ·Î À̵¿Çϰí ÀÖÀ» ¶§¿¡ ¼ö¼Ò ¿øÀÚÀÇ 1/1845, Áï 9*10-28 ±×·¥ÀÌ´Ù. µµÃ¼ Áß¿¡ È帣´Â ÀüÀÚ´Â Àü·ù·Î¼­, ¹æ»ç¼± ¹°Áú·ÎºÎÅÍ´Â ¥â¼±À¸·Î ¹æÃâµÇ¾î ¿øÀÚÇÙ ÁÖÀ§ÀÇ ±Ëµµ¸¦ ȸÀüÇÏ¿© ±× ¿øÀÚÀÇ Áú·®°ú ¹æ»ç´É ÀÌ¿ÜÀÇ ÀÌÈ­ÇÐÀû ¼º»óÀ» Á¿ìÇÑ´Ù.
  • electron affinity
    ÀüÀÚ Ä£È­·Â
    ¿øÀÚ°¡ ÀüÀÚ 1°³¿Í °áÇÕÇÒ ¶§¿¡ ¹æÃâÇÏ´Â ¿¡³ÊÁö.
  • electron bath
    ÀüÇØÁ¶
  • electron beam microporbe analysis
    ÀüÀÚ±¤ ¹Ì¼¼ Žħ ¿ä¼Ò ºÐ¼®, ÀüÀÚ±¤ ¹Ì¼¼ Žħ ºÐ¼®
  • electron beam therapy
    ÀüÀÚ¼± Ä¡·á
  • electron carrier
    ÀüÀÚ ¿î¹Ýü
  • electron configuration
    ÀüÀÚ ¹èÄ¡
  • electron density
    ÀüÀÚ ¹Ðµµ
    ÀüÀÚÇö¹Ì°æ¿¡¼­ ÀüÀÚÀÇ Åõ°ú¸¦ ¸·À» ¼ö ÀÖ´Â µÎ²² ¶Ç´Â ¹Ðµµ.
  • electron emission
    ÀüÀÚ ¹æÃâ
    ¿øÀÚ¿¡ ¹æ»ç´ÉÀ» ÁÖ´Â ÀüÀÚÀÇ Çϳª.
  • electron hole
    ÀüÀÚ ±¸¸Û
  • electron microprobe analysis
    ÀüÀÚ ¹Ì¼¼ Žħ
  • electron microscopic radioautography
    ÀüÇö¹æ»ç¼± ÀÚ°¡ ±â·Ï¹ý, ÀüÇö ÀÚ±â¹ý
  • electron nonlinearity
    ÀüÀÚ ºñ¼±Çü¼º
  • electron orbit
    ÀüÀÚ °¢, ÀüÀÚ ±Ëµµ
  • electron pair
    ÀüÀÚ ½Ö
CancerWEB ¿µ¿µ ÀÇÇлçÀü ¸ÂÃã °Ë»ö °á°ú : 1 ÆäÀÌÁö: 1
electron optics <study> The science that deals with propagation electrons, as light optics deals with that of light and its phenomena. Eye lens (see lens, eye).
(05 Aug 1998)
CancerWEB ¿µ¿µ ÀÇÇлçÀü À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 1
rectified optics <microscopy> Microscope lens system correcting the rotation of polarized light that takes place at high-incidence-angle interfaces between the polarizer and analyser. Rectification provides high extinction for polarized-light and Differential Interference Contrast microscopy at high numerical apertures, thus permitting bifringence or phase retardation combined with high in g low phase.
(05 Aug 1998)
confocal optics <microscopy> A (microscope) optical system in which the condenser and objective lenses both focus onto one single point in the specimen. Generally, the image of a pinhole source is focused onto a point in the specimen, and that point is focused by the objective lens onto a point detector or through a mask with a pinhole aperture. With confocal optics, the Abbe limit of resolution can be exceeded since only a limited region of the specimen is viewed at any onetime.
(05 Aug 1998)
optics That branch of physical science which treats of the nature and properties of light, the laws of its modification by opaque and transparent bodies, and the phenomena of vision.
Origin: Cf. F. Optique, L. Optice, Gr. (sc). See Optic.
Source: Websters Dictionary
(01 Mar 1998)
aperture for electron microscopy <technique> Anode aperture: The opening in the accelerating voltage anode shield of the electron gun through which the electrons must pass to irradiate the specimen. Condenser aperture: An opening in the condenser lens controlling the number of electrons entering the lens and the angular aperture of the electron beam.
The angular aperture can also be controlled by the condenser lens current. Physical objective aperture: A metallic diaphragm, with a small central hole, used to limit the cone of electrons accepted by the objective lens. This improves image-contrast since highly scattered electrons are prevented from arriving at the Gaussian image plane and therefore cannot contribute to background fog. Aplanatic. Free from spherical aberration and coma.
(05 Aug 1998)
Auger electron An electron ejected from a lower energy orbital after a photoelectric interaction of an X-ray photon with a K-shell electron by the characteristic radiation photon; the Auger electron recoils with energy equal to the characteristic radiation less the difference in shell binding energies.
See: photoelectric effect.
(05 Mar 2000)
backscattered electron <microscopy> Produced by an incident electron colliding with the nucleus of an atom in the specimen. The incident electron is then scattered backward about 180 degrees with no appreciable loss of energy, an elastic collision.
(05 Aug 1998)
backscattered electron imaging <microscopy> The production of backscattered electrons from a sample varies directly with the specimen's average atomic number, higher atomic number elements produce more backscattered electrons than lower atomic number ones. Detection of Backscattered Electrons is achieved by using a donut shaped solid state saemiconductor device mounted on the bottom of the objective lens. When Backscattered Electrons strike the detector electron-hole pairs are created which are then counted. This quantity is translated into a pixel intensity and displayed on the CRT, forming the image. By splitting the detector into halves (or quadrants) differences in the signal level on the individual detector segments provide surface topography information.
(05 Aug 1998)
valence electron One of the electron's that take part in chemical reactions of an atom.
(05 Mar 2000)
Parallel Electron Energy Loss Spectroscopy <technique> Electron energy loss spectroscopy analyses the inelastically scattered electrons present in the beam after it has been transmitted through the sample. An electron energy loss spectrum typically consists of a monatomic decreasing background on which are superimposed a number of peaks. Each peak is characteristic of the scattering process that has occurred in the sample. The peaks can be used to obtain information about the chemical composition and electronic structure of the sample. Electron energy loss spectra are acquired typically in a magnetic sector spectrometer located under the camera chamber of the transmission electron microscope. Spatial resolution is typically limited by the minimum probe diameter of the microscope. Electron energy loss spectroscopy tends to be complimentary to EDS in that it can be used to analyse very thin samples of low Z materials.
Acronym: PEELS
(05 Aug 1998)
reverse electron transport <chemistry> The energy-dependent movement of electrons against the thermodynamic gradient to form a strong reductant from a weaker electron donor.
(11 Jan 1998)
microscope, electron <microscopy> An electron-optical device which produces a magnified image of an object. Detail may be revealed by virtue of selective transmission, reflection, or emission of electrons by the object.
(05 Aug 1998)
microscopy, electron Visual and photographic microscopy in which electron beams with wavelengths thousands of times shorter than visible light are used in place of light, thereby allowing much greater magnification.
(12 Dec 1998)
microscopy, electron, scanning Microscopy in which the object is examined directly by an electron beam scanning the specimen point-by-point, giving the surface image a three-dimensional quality.
(12 Dec 1998)
microscopy, electron, scanning transmission A type of electron microscopy which scans with an extremely narrow beam that is transmitted through the sample. The detection apparatus produces an image whose brightness depends on the atomic number of the sample. It should not be confused with microscopy, electron scanning nor with microscopy, electron, transmission (see microscopy, electron).
(12 Dec 1998)
Conventional Transmission Electron Microscopy <technique> A term applied to 'normal' transmission electron microscopy imaging. The electron beam is passed through a thin film sample (typically ~1-200 nm thick). Bright field diffraction contrast images are formed with the direct (undiffracted) beam. Dark field images are formed with a selected diffracted beam. CTEM imaging is used in the general observation of samples and careful selection of the diffracting conditions of the sample will allow the analysis of defect structures within the sample.
(05 Aug 1998)
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  • ¿µ¹®
    ÇѱÛ
  • electron optics
    ÀüÀÚ °øÇÐ
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  • ¿µ¹®
    ÇѱÛ
  • fiber optics
    ¼¶À¯ ±¤ÇÐ(À¯¸®³ª ÇÃ¶ó½ºÆ½ ¼¶À¯°üÀ» ÅëÇÏ¿© ±¤»óÀ» ±¼Àý½ÃÄÑ Àü´ÞÇÏ´Â ±â¼ú)
  • integrated optics
    (¹°)±¤ÁýÀûȸ·Î
  • optics
    ±¤ÇÐ
  • electron
    ÀüÀÚ
  • electron
    ÀüÀÚ
  • electron affinity
    (¹°)ÀüÀÚ Ä£È­·Â
  • electron beam
    (¹°)ÀüÀÚ ºö(Àü°è,ÀÚ°è¿¡¼­ ÇÑ ¹æÇâÀ¸·Î ¸ð¾ÆÁ® È帣´Â ÀüÀÚÀÇ È帧)
  • electron beam melting
    (±Ý¼Ó)ÀüÀÚºö ¿ëÇØ¹ý Àå
  • electron bomb
    ÀÏ·ºÆ®·Ð ¼ÒÀÌź
  • electron gas
    (¹°)ÀüÀÚ ±âü(°¡½º)
  • electron gun
    ÀüÀÚÃÑ(ºê¶ó¿î°üÀÇ ÀÜÀÚ·ù ÁýÁß°ü) )
  • electron lens
    ÀüÀÚ ·»Áî
  • electron microseope
    ÀüÀÚ Çö¹Ì°æ
  • electron spin resonance
    (¹°)ÀüÀÚ ½ºÇÉ °ø¸í
  • electron telescope
    ÀüÀÚ ¸Á¿ø°æ
WordNet ÀÏ¹Ý ¿µ¿µ »çÀü °Ë»ö °á°ú : 1 ÆäÀÌÁö: 1
electron optics the branch of electronics that deals with beams of electrons and their focusing and deflection by magnetic fields
¿ÜºÎ ¸µÅ© - American Heritage Dictionary ¿µ¿µ»çÀü ¸ÂÃã °Ë»ö (https://www.ahdictionary.com) °á°ú: 1 ÆäÀÌÁö: 1
ÀÌ ¾Æ·¡ ºÎÅÍ´Â °á°ú°¡ ¾ø½À´Ï´Ù.
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    ¼ººÐ/ÇÔ·®
    ±¸ºÐ/º¸Çè±Þ¿©
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