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"electron beam performance"¿¡ ´ëÇÑ °Ë»ö °á°úÀÔ´Ï´Ù. °Ë»ö °á°ú º¸´Â µµÁß¿¡ Tab ۸¦ ´©¸£½Ã¸é °Ë»ö âÀÌ ¼±Åõ˴ϴÙ.
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  • ¿µ¹®
    ÇѱÛ
  • odd electron
    ȦÀüÀÚ
  • orbital electron capture
    ±ËµµÀüÀÚÆ÷ȹ
  • scanning electron microscope
    ½ºÄ³´×ÀüÀÚÇö¹Ì°æ, ÁÖ»çÀüÀÚÇö¹Ì°æ
  • valence electron
    ¿øÀÚ°¡ÀüÀÚ
  • beam
    1. ¹æÃâ 2. µéº¸ 3. ¼±, ºö, ºû»ì
  • beam alignment
    ºöÁ¤·Ä
  • beam attenuation
    ºö°¨¼è, ºö¾àÈ­
  • beam configuration
    ºö¹èÄ¡, ºö±¸Á¶, ºöÇüÅÂ
  • beam depth
    µéº¸±íÀÌ, À½¼Ó±íÀÌ
  • beam hardening effect
    ºö°æÈ­È¿°ú
  • beam profile
    ºöÃø¸éµµ, ¼ÓÃø¸é»ó, À½¼ÓÃø¸é»ó
  • beam scale
    ´ëÀú¿ï
  • beam splitting
    ¼±ºÐ¿­
  • beam width
    µéº¸Æø, ¼ÓÆø
  • beam-modifying device
    ºöº¯°æ±â±¸, ºû»ìº¯°æ±â±¸
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  • ¿µ¹®
    ÇѱÛ
  • electron perturbation
    ÀüÀÚ±³¶õ
  • electron ray
    ÀüÀÚ¼±
  • electron shell
    ÀüÀÚ°¢
  • electron stain
    ÀüÀÚ¿°»ö
  • electron staining
    ÀüÀÚ¿°»ö
  • electron structure
    ÀüÀÚ±¸Á¶
  • emission electron
    ¹æÃâÀüÀÚ
  • free electron
    ÀÚÀ¯ÀüÀÚ
  • odd electron
    ȦÀüÀÚ
  • valence electron
    ¿øÀÚ°¡ÀüÀÚ
  • noncyclic electron flow
    ºñȸ·ÎÀüÀÚÀü´Þ
  • scanning electron microscope
    ½ºÄ³´×ÀüÀÚÇö¹Ì°æ
  • transmission electron microscope
    Åõ°úÀüÀÚÇö¹Ì°æ
  • beam alignment
    ºöÁ¤·Ä
  • beam attenuation
    ºö°¨¼è, ºö¾àÈ­
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  • ¿µ¹®
    ÇѱÛ
  • beam
    ¼Ó
  • beam alignment
    ºöÁ¤·Ä
  • beam attenuation
    ºö°¨¼è
  • beam axis
    ºöÃà
  • beam configuration
    ºö¹èÄ¡, ºö±¸Á¶, ºöÇüÅÂ
  • beam depth
    À½¼Ó (ëåáÖ) ±íÀÌ
  • beam depth
    ¼Ó ±íÀÌ
  • beam diameter
    À½¼Ó Á÷°æ (ëåáÖ òÁÌè)
  • beam diameter
    ¼Ó Á÷°æ
  • beam direction
    ºö¹æÇâ
  • beam geometry
    À½¼Ó ¸ð¾ç
  • beam geometry
    ¼Ó ¸ð¾ç
  • beam hardening (effect)
    ºö°æÈ­È¿°ú
  • beam harding artifact
    X-¼± °æÈ­ Àΰø¹°
  • beam profile
    ºöÃø¸éµµ
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  • ¿µ¹®
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  • electron transport chain
    ÀüÀÚ¼ö¼Û(ï³í­âÃáê) »ç½½
  • electron transport particle
    ÀüÀÚ¼ö¼Û ÀÔÀÚ(ï³í­âÃáêØ£í­)
  • electron transport system
    ÀüÀÚ¼ö¼Û(ï³í­âÃáê) ½Ã½ºÅÛ
  • electron trap
    ÀüÀÚ(ï³í­) µ£
  • hydrated electron
    ¼öÈ­ ÀüÀÚ(â©ûùï³í­)
  • internal conversion electron
    ³»ºÎÀüȯ ÀüÀÚ(Үݻï®üµï³í­)
  • low-energy electron diffraction
    Àú(î¸)¿¡³ÊÁö ÀüÀÚȸÀý(ï³í­üÞï¹)
  • negative electron
    À½ÀüÀÚ(ëäï³í­)
  • odd electron
    Ȧ ÀüÀÚ(ï³í­)
  • orbital electron capture
    ±ËµµÀüÀÚ Æ÷ȹ(ÏùÔ³ï³í­øÙüò)
  • photosynthetic electron transport
    ±¤ÇÕ¼º ÀüÀÚ ¼ö¼Û(ï³í­âÃáê)
  • positive electron
    ¾çÀüÀÚ(åÕï³í­)
  • scanning electron microscope
    ÁÖ»ç ÀüÀÚ Çö¹Ì°æ(ñËÞÛï³í­úéÚ°Ìð)
  • secondary electron
    ÀÌÂ÷ ÀüÀÚ(ì£ó­ï³í­)
  • transmission electron microscope
    Åõ°ú ÀüÀÚ Çö¹Ì°æ(÷âΦï³í­úéÚ°Ìð)
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E/M electron microscope, electron microscopy; evaluation and management
AMBER advanced multiple-beam equalization radiography
BEAM brain electrical activity monitoring
BEV baboon endogenous virus; beam's eye view
SBRT split beam rotation therapy
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EBRT External beam irradiation
XRT External beam radiation therapy
ERT External beam radiotherapy
EBR external beam radiotherapy
FIB focused ion beam
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    ¼³¸í
  • 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
  • electron pair creation
    ÀüÀÚ½Ö Ã¢»ý
  • electron probe microanalysis technique
    ÀüÀÚ Å½Ä§ ¹Ì¼¼ ºÐ¼®¹ý
  • electron shell
    ÀüÀÚ °¢
  • electron structure of atom
    ¿øÀÚÀÇ ÀüÀÚ ±¸Á¶
  • electron transfer
    ÀüÀÚ À̵¿, ÀüÀÚ ¿î¹Ýü
CancerWEB ¿µ¿µ ÀÇÇлçÀü À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 3
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)
conversion electron An internal conversion electron.
(05 Mar 2000)
positive electron A subatomic particle of mass and charge equal to the electron but of opposite (i.e., positive) charge.
Synonym: positive electron.
(05 Mar 2000)
scanning electron microscope <instrument> An electron microscope in which the image is formed by a beam synchronised with an electron probe scanning the object.
The intensity of the image forming beam is proportional to the scattering or secondary emission of the specimen where the probe strikes it
(05 Aug 1998)
scanning electron microscopy <procedure> Technique of electron microscopy in which the specimen is coated with heavy metal and then scanned by an electron beam. The image is built up on a monitor screen (in the same way as the raster builds a conventional television image). The resolution is not so great as with transmission electron microscopy, but preparation is easier (often by fixation followed by critical point drying), the depth of focus is relatively enormous, the surface of a specimen can be seen (though not the interior unless the specimen is cracked open) and the image is aesthetically pleasing.
(18 Nov 1997)
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    ÇѱÛ
  • H beam
    HÇü ºö
  • beam
    ´ëµéº¸;µµ¸®;°¡·Îµéº¸;¼±Æø;(õĪÀÇ)´ë;(Àï±âÀÇ)¼º¿¡;±¤¼±;¹æÇâÁö½ÃÀüÆÄ-¹ßÇÏ´Ù;ºû³ª´Ù;¹øÂ½ÀÌ´Ù;¹Ì¼ÒÁþ´Ù ;
  • beam rider
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  • beam wind
    ¹Ù¶÷
  • charged particle beam
    ÇÏÀü ÀÔÀÚ¼±
  • check beam
    üũ ºö(Á¶Á¾ÀÚ°¡ Âø·ú Àü¿¡ À§Ä¡¸¦ È®ÀÎÇϱâ À§ÇÏ¿© ¹ß»çÇÏ´Â ÀüÆÄ)
  • collar beam
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  • fender beam
    ¹æÇöÀç
  • flitch beam
    °ãµéº¸;ÇÕ·®
  • flitched beam
    °ãµéº¸;ÇÕ·®
  • ground beam
    =GROUNDSEL;ħ¸ñ 
  • hammer beam
    ¿ÜÆÈµéº¸
  • high beam
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    Âø·ú À¯µµ ÀüÆÄ
  • particle beam
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