HTML Microdata document

This HTML5 document contains 511 embedded RDF statements represented using HTML+Microdata notation.

The embedded RDF content will be recognized by any processor of HTML5 Microdata.

Namespace Prefixes

Prefix	IRI
dbpedia-de	http://de.dbpedia.org/resource/
xsdh	http://www.w3.org/2001/XMLSchema#
n32	http://dbpedia.org/resource/Holo/
dbo	http://dbpedia.org/ontology/
dbpedia-ko	http://ko.dbpedia.org/resource/
rdf	http://www.w3.org/1999/02/22-rdf-syntax-ns#
wikidata	http://www.wikidata.org/entity/
owl	http://www.w3.org/2002/07/owl#
dbpedia-sl	http://sl.dbpedia.org/resource/
dbpedia-it	http://it.dbpedia.org/resource/
n51	http://www.europa.com/~telscope/
gold	http://purl.org/linguistics/gold/
n60	http://www.gratinglab.com/library/handbook/
n46	https://global.dbpedia.org/id/
dbpedia-et	http://et.dbpedia.org/resource/
dbpedia-fr	http://fr.dbpedia.org/resource/
n45	http://uz.dbpedia.org/resource/
n33	http://dbpedia.org/resource/File:
dbpedia-bg	http://bg.dbpedia.org/resource/
n17	http://commons.wikimedia.org/wiki/Special:FilePath/
dbpedia-ms	http://ms.dbpedia.org/resource/
dbr	http://dbpedia.org/resource/
n31	http://www.noao.edu/ets/vpgratings/
dbpedia-be	http://be.dbpedia.org/resource/
n42	https://www.youtube.com/
n22	http://dbpedia.org/resource/AN/
dbpedia-sk	http://sk.dbpedia.org/resource/
dbpedia-da	http://da.dbpedia.org/resource/
dbpedia-sv	http://sv.dbpedia.org/resource/
dbpedia-ca	http://ca.dbpedia.org/resource/
dbpedia-tr	http://tr.dbpedia.org/resource/
dbpedia-es	http://es.dbpedia.org/resource/
n41	http://ast.dbpedia.org/resource/
n62	http://te.dbpedia.org/resource/
dbpedia-kk	http://kk.dbpedia.org/resource/
n64	http://lt.dbpedia.org/resource/
n53	http://sourceforge.net/projects/
n59	http://www.gratinglab.com/Information/Technical_Publications/
n58	http://hi.dbpedia.org/resource/
dbpedia-nn	http://nn.dbpedia.org/resource/
dbpedia-ru	http://ru.dbpedia.org/resource/
dbpedia-hr	http://hr.dbpedia.org/resource/
dbpedia-nl	http://nl.dbpedia.org/resource/
prov	http://www.w3.org/ns/prov#
freebase	http://rdf.freebase.com/ns/
n29	http://demonstrations.wolfram.com/InterferenceInDiffractionGratingBeams/
dbpedia-ja	http://ja.dbpedia.org/resource/
dbpedia-ar	http://ar.dbpedia.org/resource/
dbp	http://dbpedia.org/property/
n20	https://digital.kenyon.edu/cgi/
dbpedia-fa	http://fa.dbpedia.org/resource/
dbpedia-uk	http://uk.dbpedia.org/resource/
dbc	http://dbpedia.org/resource/Category:
dbt	http://dbpedia.org/resource/Template:
rdfs	http://www.w3.org/2000/01/rdf-schema#
dcterms	http://purl.org/dc/terms/
wikipedia-en	http://en.wikipedia.org/wiki/
dbpedia-sr	http://sr.dbpedia.org/resource/
foaf	http://xmlns.com/foaf/0.1/
dbpedia-zh	http://zh.dbpedia.org/resource/
dbpedia-fi	http://fi.dbpedia.org/resource/
dbpedia-pl	http://pl.dbpedia.org/resource/
n27	https://books.google.com/
dbpedia-he	http://he.dbpedia.org/resource/
n61	http://www.horiba.com/scientific/products/optics-tutorial/
n26	http://hy.dbpedia.org/resource/

Statements

Subject Item: dbr:Canadia_spinosa
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Beam_expander
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Beam_steering
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Pyotr_Lebedev
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Electromagnetically_induced_grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Electron_diffraction
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Magneto-optical_trap
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Microlithography
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Metamaterial
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Prism_compressor
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Prism_spectrometer
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Theoretical_and_experimental_justification_for_the_Schrödinger_equation
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:David_Rittenhouse
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Antiproton_Decelerator
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:April_1901
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: n32:Or
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Hummingbird
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Joseph_von_Fraunhofer
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Bessel_beam
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Rensselaer_Society_of_Engineers
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Visual_acuity
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:David_G._Cory
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Depolarizer_(optics)
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Dye_laser
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Index_of_optics_articles
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Index_of_physics_articles_(D)
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Inductively_coupled_plasma_atomic_emission_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Interference_lithography
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Interferometric_modulator_display
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:John_August_Anderson
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Polychrome
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Stellar_classification
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Thin-film_interference
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Optical_spectrometer
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Smith–Purcell_effect
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Observational_astronomy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Optical_axis_grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Powder_diffraction
rdfs:seeAlso: dbr:Diffraction_grating

Subject Item: dbr:Spectrohelioscope
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Timeline_of_United_States_inventions_(before_1890)
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Collimated_transmission_theory
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Color
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Compact_disc
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Ester_H._Segal
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Geophysical_survey
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Nova_(laser)
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Optical_disc
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Nondispersive_infrared_sensor
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Polychromator
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Reflectance
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Wavenumber
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Photorefractive_effect
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Clinton_Davisson
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Alexandra_Glagoleva-Arkadieva
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Einstein_Observatory
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Emilio_Segrè
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Frederick_Albert_Saunders
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Frequency_selective_surface
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Frits_Zernike
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Gaia_(spacecraft)
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Graphyne
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Bragg's_law
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Blazing
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Cosmic_Origins_Spectrograph
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Theodore_Lyman_IV
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Thomas_Thorp_(scientific_instrument_manufacturer)
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Phase-contrast_X-ray_imaging
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Optical_head-mounted_display
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Animal_coloration
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Lepidoptera
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Lewis_Morris_Rutherfurd
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Chirped_pulse_amplification
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Silvia_Vignolini
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Small-angle_approximation
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Structural_coloration
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Colloid
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Colloidal_crystal
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Color_scheme
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Computed_tomography_imaging_spectrometer
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Yttrium_borides
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Emission_spectrum
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Fraunhofer_diffraction
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Spectrophotometry
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Space_sunshade
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Synthetic_diamond
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Talbot_effect
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Visible_spectrum
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:McPherson_Inc
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Augustin-Jean_Fresnel
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Augusto_Righi
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Dispersive_prism
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Distributed-feedback_laser
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Dividing_engine
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Heidenhain
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Iridescence
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:James_Gregory_(mathematician)
dbo:wikiPageWikiLink: dbr:Diffraction_grating
dbp:knownFor: dbr:Diffraction_grating
dbo:knownFor: dbr:Diffraction_grating

Subject Item: dbr:Laser_diode
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Laser_lighting_display
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Linear_encoder
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Long-slit_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Organic_photorefractive_materials
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Spermodea_lamellata
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:ADEOS_I
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: n22:SPS-48
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Extreme_Ultraviolet_Explorer
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Far_Ultraviolet_Spectroscopic_Explorer
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Fossils_of_the_Burgess_Shale
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Angle-sensitive_pixel
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Band-stop_filter
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Brillouin_scattering
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Brillouin_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Carbon-dioxide_laser
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Cavity_ring-down_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Chromo-modal_dispersion
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Daniel_K._Inouye_Solar_Telescope
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Diamond_turning
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Diffraction
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Diffraction_efficiency
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Diffraction_from_slits
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Diffraction_grating
rdf:type: owl:Thing dbo:MilitaryUnit
rdfs:label: 衍射光栅 회절격자 Réseau de diffraction Optisches Gitter Дифракційна ґратка 回折格子 Xarxa de difracció Дифракционная решётка Diffraktionsgitter Diffraction grating Reticolo di diffrazione Tralie (natuurkunde) Siatka dyfrakcyjna محزز الحيود Red de difracción
rdfs:comment: In optics, a diffraction grating is an optical component with a periodic structure that diffracts light into several beams travelling in different directions (i.e., different diffraction angles). The emerging coloration is a form of structural coloration. The directions or diffraction angles of these beams depend on the wave (light) incident angle to the diffraction grating, the spacing or distance between adjacent diffracting elements (e.g., parallel slits for a transmission grating) on the grating, and the wavelength of the incident light. The grating acts as a dispersive element. Because of this, diffraction gratings are commonly used in monochromators and spectrometers, but other applications are also possible such as optical encoders for high precision motion control and wavefront mea Дифракционная решётка — оптический прибор, действие которого основано на использовании явления дифракции света. Представляет собой совокупность большого числа регулярно расположенных штрихов (щелей, выступов), нанесённых на некоторую поверхность. 衍射光栅（diffraction grating）是光栅的一种。它通过有规律的结构，使入射光的振幅或相位（或两者同时）受到周期性空间调制。衍射光栅在光学上的最重要应用是作为分光器件，常被用于单色仪和光谱仪上。实际应用的衍射光栅通常是在表面上有沟槽或刻痕的平板。这样的光栅可以是透射光栅或反射光栅。可以调制入射光的相位而不是振幅的衍射光栅现在也能生产。衍射光栅的原理是苏格兰数学家詹姆斯·格雷戈里发现的，发现时间大约在牛顿的棱镜实验的一年后。詹姆斯·格雷戈里大概是受到了光线透过鸟类羽毛的启发。公认的最早的人造光栅是德国物理学家夫琅禾费在1821年制成的，那是一个极简单的金属丝栅网。但也有人争辩说费城发明家戴维·里滕豪斯于1785年在两根螺钉之间固定的几根头发才是世界上第一个人造光栅。 En óptica, una red de difracción (también denominada rejilla o retícula de difracción) es un componente óptico con una estructura periódica que divide la luz difractándola en varios haces que viajan en diferentes direcciones. La coloración emergente es una forma de coloración estructural. Las direcciones de estos rayos dependen del espaciado de la rejilla y de la longitud de onda de la luz, de modo que la rejilla actúa como el elemento dispersivo. Debido a esto, las rejillas se usan comúnmente en óptica como elementos monocromadores y en espectrometría. إنّ محزز الحيود (أو شبكة الانعراج) هو عنصر بصري ذو طراز منتظم، يقسم الضوء ويحيده إلى عدة حزم ضوئية بعدة اتجاهات. وتتحدد اتجهات تلك الحزم الجديدة وفق تباعد التحزيز وطول الموجة للضوء الساقط، فالمحزز يقوم بعمل عنصر مشتت للضوء. وكثيرًا ما يستخدم محزز الحيود في (Monochromator) والمطيافات (spectrometer) لهذا الغرض. إنّ (Reversal film) ذا الخطوط السوداء القاتمة والدقيقة يشكل محزز حيود بسيط. ولكن محززات الحيود عمليا تكون عبارة عن أخاديد على سطحها بدلا من هذه الخطوط الداكنة. وقد تكون هذه الأخاديد إما شفافة أو عاكسة. بإمكان بعض المحززات أن تعدل طور الموجة الضوئية فقط، فضلاً عن تعديل مطالها. Siatka dyfrakcyjna – przyrząd do przeprowadzania analizy widmowej światła. Tworzy ją układ równych, równoległych i jednakowo rozmieszczonych szczelin. Stała siatki dyfrakcyjnej to parametr charakteryzujący siatkę dyfrakcyjną. Wyraża on rozstaw szczelin siatki (odległość między środkami kolejnych szczelin). Typowa siatka dyfrakcyjna ma 12000 szczelin na cal. Stała takiej siatki wynosi 2116 nm (d = 2,54 cm/12 000). Prążki jasne powstają dla kątów spełniających warunek: gdzie: – długość fali, – stała siatki, – liczba naturalna zwana rządem widma. Optische Gitter, auch Beugungsgitter oder Mehrfachspalt genannt, sind periodische Strukturen zur Beugung von Licht. Alltagsbeispiele sind CDs, feine Kämme sowie feine Gardinen (letztere v. a. nachts an Straßenlaternen o. ä.). Die Gitterkonstante ist die Periode des Gitters, typische Werte sind 0,5 µm bis 10 µm. Alle Typen von Gittern bestehen aus parallelen, linienartigen Strukturen: Una xarxa de difracció és, en òptica, un component òptic amb un patró regular, que difracta (divideix) la llum en diversos feixos que viatgen en diferents direccions. La direcció d'aquests feixos depèn de l'espaiat de la xarxa i de la longitud d'ona de la llum incident, de manera que la xarxa actua com un element dispersiu. Gràcies a això, les xarxes s'utilitzen habitualment en monocromadors i espectròmetres. Un réseau de diffraction est un dispositif optique composé d'une série de fentes parallèles (réseau en transmission), ou de rayures réfléchissantes (réseau en réflexion). Ces traits sont espacés de manière régulière, et l'espacement est appelé le « pas » du réseau. Si la distance entre plusieurs traits est de l'ordre de grandeur de la longueur de cohérence spatiale de la lumière incidente, le réseau permet d'obtenir des figures de diffraction particulières influencées par la répétition. Il s'agit donc d'un effet de diffraction lié à la répétition d'une structure optique, distinct de l'effet issu de la diffraction par une structure de taille comparable à la longueur d'onde, comme une fente de Young. Ett gitter är ett optiskt element som består av många parallella linjer som släpper genom (transmissionsgitter) eller reflekterar (reflektionsgitter) ljus. Det kan exempelvis bestå av fina trådar eller ristade linjer på en glasskiva. Genom diffraktion utbreder sig ljuset efter gittret i olika vinklar, beroende på våglängd, m.a.o. vitt ljus (eller bredbandigt ljus) delas upp till att forma ett spektrum av regnbågsfärger ungefär som ett prisma gör. Allmänt så ökar diffraktionsvinkeln med våglängden för ett givet gitter (tvärtemot till hur prismor gör). Det existerar dock s.k. gitterordningar, vilket betyder att en given våglängd har samtidigt multipla diskreta diffraktionsvinklar. Een tralie of diffractierooster is een voorwerp uit de natuurkunde dat wordt gebruikt (in de telecommunicatie en in de optica) om elektromagnetische straling naar golflengte te scheiden. 회절격자(回折格子, diffraction grating)는 광학에서 빛을 입사시키면 여러 다른 방향으로 빛살을 회절시키는 도구이다. 회절 방향은 격자의 배치와 빛의 파장에 따라 달라진다. 이러한 성질을 이용하여 단색기나 분광기에 회절격자가 쓰인다. 回折格子（かいせつこうし）とは、格子状のパターンによる回折を利用して干渉縞を作るために使用される光学素子の総称。グレーティング（英: diffraction grating）とも呼ばれる。格子パターンは直線状の凹凸がマイクロメートルサイズの周期で平行に並んで構成されていることが多い。ただしその周期、材質やパターン厚（凹凸の差厚）などは用途や使用する波長域によって適宜異なる。主に物理・化学分野で分光素子として用いられるものの用途は一概には言えない。回折格子による干渉縞が見られる身近な例としては、CDが挙げられる。(後述）（ただしCDは、構造的に回折格子になっているものの、情報の読み取りに回折を利用しているわけではない） Дифракційна ґратка — із періодичною структурою, здатний впливати на поширення світлових хвиль так, що енергія хвилі, яка пройшла через ґратку, зосереджується в певних напрямках. Напрямки поширення цих пучків залежать від періоду ґратки та довжини світлових хвиль, тобто дифракційна ґратка працює як дисперсійний елемент. Монохроматичний світловий пучок, що падає на ґратку, теж розділиться на декілька пучків, які поширюються в різних напрямках. Дифракційні ґратки широко застосовуються у монохроматорах і спектрометрах. In ottica, il reticolo di diffrazione è un componente ottico costituito solitamente da una lastra di vetro sulla cui superficie è incisa una trama di linee parallele, uguali ed equidistanti, a distanze confrontabili con la lunghezza d'onda della luce. Viene usato per separare i colori della luce, sfruttando la sua natura ondulatoria.
foaf:depiction: n17:Mehrfachspalt-Numerisch.png n17:Light-bulb-grating.png n17:Argon_laser_beam_and_diffraction_mirror.png n17:Difraction_grating_reflecting_green_light.jpg n17:Diffraction_grating.jpg n17:Diffraction_Grating_Equation.jpg n17:Comparison_refraction_diffraction_spectra.svg n17:Diffraction_from_mobile_phone.jpg n17:Helical_fluorescent_lamp_spectrum_by_diffraction_grating.jpg n17:Interference-colors.jpg n17:Iridescent_biofilm_on_a_fishtank.jpg n17:%22Lines_made_with_light%22_-_diffraction_gratings_at_the_UK_ATC_(15555795912).jpg n17:An_incandescent_light-bulb_viewed_through_a_transmissive_diffraction_grating.jpg
dcterms:subject: dbc:Photonics dbc:Optical_components dbc:Diffraction dbc:Diffraction_gratings
dbo:wikiPageID: 41031
dbo:wikiPageRevisionID: 1117765101
dbo:wikiPageWikiLink: dbr:Laser dbr:Thomas_Young_(scientist) dbr:Iridescent dbr:Polychromatic dbc:Photonics dbr:Henry_Joseph_Grayson dbr:Reflection_(optics) dbr:Quantum_electrodynamics dbr:Butterfly dbr:Interference_(wave_propagation) dbr:Meteorology dbr:Optical_axis_grating dbr:Electromagnetic_spectrum dbr:Compact_Disc dbr:Micrometre dbc:Optical_components dbr:David_Rittenhouse dbr:Isaac_Newton dbr:Structural_coloration dbr:Spectrometer dbr:Gramophone_record dbr:Optics dbr:Kapitza-Dirac_effect dbr:Friedrich_Adolph_Nobert dbr:Triangular_prism_(optics) dbr:Destructive_interference dbr:Birefringence dbr:Birefringent dbr:Vector_sum dbc:Diffraction dbr:Critical_angle_(optics) dbr:Halo_(optical_phenomenon) dbr:Nook_Simple_Touch n33:Argon_laser_beam_and_diffraction_mirror.png dbr:Cloud_iridescence n33:Mehrfachspalt-Numerisch.png dbr:Fraunhofer_diffraction_(mathematics) dbr:DVD dbr:Striated_muscle dbr:Lithography dbr:Probability_amplitude dbr:Scattering n33:Comparison_refraction_diffraction_spectra.svg dbr:Nanometer dbr:Fraunhofer_diffraction dbr:Wavelength_division_multiplexing dbr:Dispersion_(optics) n33:Iridescent_biofilm_on_a_fishtank.JPG dbc:Diffraction_gratings dbr:E-reader dbr:James_Gregory_(astronomer_and_mathematician) dbr:Echelle_grating dbr:Diffraction_spike dbr:CD dbr:Diffraction_efficiency dbr:Diffraction_from_slits n33:%22Lines_made_with_light%22_-_diffraction_gratings_at_the_UK_ATC_(15555795912).jpg dbr:Diffraction dbr:Monochromator dbr:Integrated_optics dbr:1821_in_science dbr:Corona_(optical_phenomenon) dbr:Refractive_index dbr:Philadelphia dbr:Photon dbr:Frontlight dbr:Angle-sensitive_pixel n33:An_incandescent_light-bulb_viewed_through_a_transmissive_diffraction_grating.jpg dbr:Maratus n33:Light-bulb-grating.png dbr:Pulse_compression dbr:Thin-film_interference dbr:Photosensitive dbr:Mother-of-pearl dbr:Dividing_engine dbr:1785_in_science dbr:Digital_planar_holography dbr:Stray_light dbr:N-slit_interferometric_equation dbr:Specular_reflection dbr:Path_integral_formulation dbr:Rainbow dbr:Virtually_imaged_phased_array dbr:Wavelength dbr:X-ray_crystallography dbr:Seed_shrimp dbr:Augustin-Jean_Fresnel dbr:Holography dbr:Kirchhoff's_diffraction_formula dbr:Henry_Augustus_Rowland dbr:Spectrum dbr:Iridescence dbr:Blazed_grating n33:Helical_fluorescent_lamp_spectrum_by_diffraction_grating.JPG n33:Interference-colors.jpg dbr:Holographic_grating dbr:Polarization_(waves) dbr:Thin_film_interference dbr:Prism_(optics) dbr:Peacock dbr:Ultrasonic_grating dbr:Subwavelength_grating n33:Diffraction_Grating_Equation.jpg dbr:Grism n33:Diffraction_from_mobile_phone.jpg n33:Diffraction_grating.jpg dbr:Integer dbr:Huygens–Fresnel_principle dbr:Normal_(geometry) dbr:Richard_Feynman n33:Difraction_grating_reflecting_green_light.JPG dbr:Burgess_Shale_type_fauna dbr:Zone_plate dbr:Fresnel_diffraction dbr:Isotropy dbr:Joseph_von_Fraunhofer dbr:Grating_efficiency
dbo:wikiPageExternalLink: n20:viewcontent.cgi%3Farticle=1004&context=physics_publications n27:books%3Fid=IlMBiFGO4pMC n29: n31: n42:watch%3Fv=UFh7hkLeL10&list=LLv_sOjX8Uy6TOolYSCkrrYA&index=603 n51:histspec.txt n53:gratingcalc n59:Gratings.aspx n60: n61:diffraction-gratings
owl:sameAs: freebase:m.0b7m2 dbpedia-et:Difraktsioonivõre dbpedia-bg:Дифракционна_решетка dbpedia-ar:محزز_الحيود dbpedia-uk:Дифракційна_ґратка dbpedia-es:Red_de_difracción dbpedia-da:Diffraktivt_gitter_(optisk) dbpedia-ms:Parutan_belauan dbpedia-sr:Difrakciona_rešetka dbpedia-hr:Optička_rešetka dbpedia-ca:Xarxa_de_difracció dbpedia-nl:Tralie_(natuurkunde) n26:Դիֆրակցիոն_ցանց wikidata:Q653294 dbpedia-kk:Дифракциялық_тор dbpedia-sv:Diffraktionsgitter dbpedia-fr:Réseau_de_diffraction dbpedia-sk:Optická_mriežka dbpedia-fa:توری_پراش dbpedia-he:סריג_עקיפה n41:Rede_de_difraición dbpedia-fi:Hila_(optiikka) dbpedia-de:Optisches_Gitter n45:Difraksion_panjara n46:4qAmE dbpedia-ja:回折格子 dbpedia-nn:Gitter_i_optikk dbpedia-be:Дыфракцыйная_рашотка dbpedia-pl:Siatka_dyfrakcyjna dbpedia-ru:Дифракционная_решётка dbpedia-sl:Uklonska_mrežica dbpedia-it:Reticolo_di_diffrazione dbpedia-zh:衍射光栅 n58:विवर्तन_ग्रेटिंग n62:డైఫ్రాక్షన్_గ్రేటింగ్ dbpedia-tr:Kırınım_ağı n64:Difrakcinė_gardelė dbpedia-ko:회절격자
dbp:wikiPageUsesTemplate: dbt:FS1037C dbt:Cite_book dbt:Cite_journal dbt:Commons_category dbt:Short_description dbt:Cite_web dbt:Authority_control dbt:Use_dmy_dates dbt:Main dbt:Refbegin dbt:Refend dbt:Reflist dbt:More_footnotes dbt:Div_col dbt:Div_col_end
dbo:thumbnail: n17:Diffraction_grating.jpg?width=300
dbo:abstract: 衍射光栅（diffraction grating）是光栅的一种。它通过有规律的结构，使入射光的振幅或相位（或两者同时）受到周期性空间调制。衍射光栅在光学上的最重要应用是作为分光器件，常被用于单色仪和光谱仪上。实际应用的衍射光栅通常是在表面上有沟槽或刻痕的平板。这样的光栅可以是透射光栅或反射光栅。可以调制入射光的相位而不是振幅的衍射光栅现在也能生产。衍射光栅的原理是苏格兰数学家詹姆斯·格雷戈里发现的，发现时间大约在牛顿的棱镜实验的一年后。詹姆斯·格雷戈里大概是受到了光线透过鸟类羽毛的启发。公认的最早的人造光栅是德国物理学家夫琅禾费在1821年制成的，那是一个极简单的金属丝栅网。但也有人争辩说费城发明家戴维·里滕豪斯于1785年在两根螺钉之间固定的几根头发才是世界上第一个人造光栅。 إنّ محزز الحيود (أو شبكة الانعراج) هو عنصر بصري ذو طراز منتظم، يقسم الضوء ويحيده إلى عدة حزم ضوئية بعدة اتجاهات. وتتحدد اتجهات تلك الحزم الجديدة وفق تباعد التحزيز وطول الموجة للضوء الساقط، فالمحزز يقوم بعمل عنصر مشتت للضوء. وكثيرًا ما يستخدم محزز الحيود في (Monochromator) والمطيافات (spectrometer) لهذا الغرض. إنّ (Reversal film) ذا الخطوط السوداء القاتمة والدقيقة يشكل محزز حيود بسيط. ولكن محززات الحيود عمليا تكون عبارة عن أخاديد على سطحها بدلا من هذه الخطوط الداكنة. وقد تكون هذه الأخاديد إما شفافة أو عاكسة. بإمكان بعض المحززات أن تعدل طور الموجة الضوئية فقط، فضلاً عن تعديل مطالها. والمحزز عموما هو أداة تستخدم لفصل وتفريق الضوء الي مكوناته اللونية (أو الاطوال الموجية المكونة له) وله أهمية كثيرة حيث لا غنى للعاملين في مجال علم البصريات عنه. والمحززات تكون على أنواع منها العاكس ومنها النافذ ففي النوع الأول تتفرق الأشعة إلى نفس جهة الضوء الساقط، في حين تتفرق إلى الجهة المغايرة في النوع الثاني، كما يمكن أن يصنع المحزز العاكس على شكل مقعر، ويستخدم لأغراض الإضاءة في الفنارات والمسارح وغيرها. وكان العالم الفرنسي فريسنل أول من اكتشف تلك الظاهرة. وقد تصنع شقوق أو أخاديد المحزز على نحو متقارب جدا من بعضها البعض بحيث تكون المسافة بين شقين متتالين صغيرة جدا وقد تصل إلى 2 ميكرومتر، وأقل من ذلك في حالة الأجهزة التي تتطلب دقة عالية. يستخدم المحزز بكثرة في تجارب الحيود. من أنواع محزوزات الحيود ما سمي محزوز النفاذ. ويصنع هذا المحزوز بعمل خدوش على زجاج منفذ للضوء في صورة خطوط رفيعة جداَ بواسطة رأس من الألماس ؛ حيث تعمل الفراغات بين خطوط الخدوش كشقوق، والنوع الأقل تكلفة من محزوزات الحيود هو المحزوز طبق الأصل أو المحزوز الغشائي ويصنع بضغط صفيحة رقيقة من البلاستيك على محزوز زجاج، والنوع الآخر هو محزوز الانعكاس ويصنع بواسطة حفر خطوط رفيعة جدأعلى سطوح طبقة معدنية أو زجاج عاكس. Een tralie of diffractierooster is een voorwerp uit de natuurkunde dat wordt gebruikt (in de telecommunicatie en in de optica) om elektromagnetische straling naar golflengte te scheiden. Ett gitter är ett optiskt element som består av många parallella linjer som släpper genom (transmissionsgitter) eller reflekterar (reflektionsgitter) ljus. Det kan exempelvis bestå av fina trådar eller ristade linjer på en glasskiva. Genom diffraktion utbreder sig ljuset efter gittret i olika vinklar, beroende på våglängd, m.a.o. vitt ljus (eller bredbandigt ljus) delas upp till att forma ett spektrum av regnbågsfärger ungefär som ett prisma gör. Allmänt så ökar diffraktionsvinkeln med våglängden för ett givet gitter (tvärtemot till hur prismor gör). Det existerar dock s.k. gitterordningar, vilket betyder att en given våglängd har samtidigt multipla diskreta diffraktionsvinklar. Detta kan beskrivas kompakt i den s.k. gitterekvationen som visas nedan. Betrakta en ljusknippe som faller på ett plant gitter och bildar en vinkel θi med ytnormalen. Det uppstår flera diffrakterade strålar i reflektionen. Den strålen som reflekteras med en vinkel lika stort som infallsvinkeln kallas för "nollte ordningens diffraktion" med m = 0. De andra ordningarna motsvarar diffrakterade strålar där m kan anta alla heltal (positiva som negativa) som skiljer sig från noll. För ett avstånd mellan ritsarna d (den s.k. gitterkonstanten) och våglängden λ, ger gitterekvationen således diffraktionsvinkeln θm(λ) av ordningen m: Observera att olika konventioner existerar för att definiera vinklarna, vilket kan leda till olika tecken i gitterekvationen. Beroende på den infallande strålens spektralfördelning och gitterkonstanten kan ett överlapp av ljus från olika ordningar förekomma. Ju högre ordningen är desto större är dess vinkelspridning (den s.k. dispersionen) och desto större är det eventuella överlappet med dess intilliggande ordningarna. Man skiljer mellan reflektions- och transmissionsgitter. I det förra observeras det diffrakterade ljuset på samma sidan gittret som källan, och i det senare fallet passerar ljuset genom gittret och det diffrakterade ljuset observeras på andra sidan. Gitter används för att dela upp vitt ljus i olika våglängder (färger) bl.a. i gitterspektrografer eller monokromatorer. Una xarxa de difracció és, en òptica, un component òptic amb un patró regular, que difracta (divideix) la llum en diversos feixos que viatgen en diferents direccions. La direcció d'aquests feixos depèn de l'espaiat de la xarxa i de la longitud d'ona de la llum incident, de manera que la xarxa actua com un element dispersiu. Gràcies a això, les xarxes s'utilitzen habitualment en monocromadors i espectròmetres. 回折格子（かいせつこうし）とは、格子状のパターンによる回折を利用して干渉縞を作るために使用される光学素子の総称。グレーティング（英: diffraction grating）とも呼ばれる。格子パターンは直線状の凹凸がマイクロメートルサイズの周期で平行に並んで構成されていることが多い。ただしその周期、材質やパターン厚（凹凸の差厚）などは用途や使用する波長域によって適宜異なる。主に物理・化学分野で分光素子として用いられるものの用途は一概には言えない。回折格子による干渉縞が見られる身近な例としては、CDが挙げられる。(後述）（ただしCDは、構造的に回折格子になっているものの、情報の読み取りに回折を利用しているわけではない） Optische Gitter, auch Beugungsgitter oder Mehrfachspalt genannt, sind periodische Strukturen zur Beugung von Licht. Alltagsbeispiele sind CDs, feine Kämme sowie feine Gardinen (letztere v. a. nachts an Straßenlaternen o. ä.). Die Gitterkonstante ist die Periode des Gitters, typische Werte sind 0,5 µm bis 10 µm. Alle Typen von Gittern bestehen aus parallelen, linienartigen Strukturen: * Spalte in undurchsichtigem Material oder undurchsichtige Stege auf einer transparenten Platte (Draht-, Spalt- oder Strichgitter) * Stege oder Furchen auf einer reflektierenden Fläche (Reflexionsgitter, Stufengitter) Gitter wirken durch Beugung von kohärentem Licht: Das Licht der einzelnen Spalte interferiert und bildet ein Interferenzmuster. Monochromatisches Licht wird in wenige verschiedene Richtungen (exakt: in Maxima verschiedener Ordnung) abgelenkt. Die Ablenkungswinkel hängen von der Gitterkonstante und der Wellenlänge ab, größere Ablenkungswinkel entsprechen höheren Ordnungen . Polychromatisches (z. B. weißes) Licht wird in sein Spektrum aufgefächert ähnlich wie bei einem Prisma. Ganz nahe am Gitter interferiert das Licht zu Kopien der Gitterstruktur (Talbot-Effekt). Gitter wurden 1785 von David Rittenhouse erfunden, 1821 baute auch Joseph von Fraunhofer Gitter. In den 1860ern wurden die Gitter mit der kleinsten Gitterkonstanten g von Friedrich Adolph Nobert (1806–1881) in Pommern hergestellt, dessen feinste Gitterlinien mit damaligen Mikroskopen schon nicht mehr aufgelöst werden konnten. Danach übernahmen die beiden Amerikaner Lewis Morris Rutherfurd (1816–1892) und William B. Rogers (1804–1882) die Führung, und gegen Ende des 19. Jahrhunderts dominierten die Konkavgitter von Henry Augustus Rowland (1848–1901), mit denen u. a. um 1890 in Baltimore die Rotverschiebung im Sonnenspektrum entdeckt wurde. Дифракционная решётка — оптический прибор, действие которого основано на использовании явления дифракции света. Представляет собой совокупность большого числа регулярно расположенных штрихов (щелей, выступов), нанесённых на некоторую поверхность. Дифракційна ґратка — із періодичною структурою, здатний впливати на поширення світлових хвиль так, що енергія хвилі, яка пройшла через ґратку, зосереджується в певних напрямках. Напрямки поширення цих пучків залежать від періоду ґратки та довжини світлових хвиль, тобто дифракційна ґратка працює як дисперсійний елемент. Монохроматичний світловий пучок, що падає на ґратку, теж розділиться на декілька пучків, які поширюються в різних напрямках. Дифракційні ґратки широко застосовуються у монохроматорах і спектрометрах. In ottica, il reticolo di diffrazione è un componente ottico costituito solitamente da una lastra di vetro sulla cui superficie è incisa una trama di linee parallele, uguali ed equidistanti, a distanze confrontabili con la lunghezza d'onda della luce. Viene usato per separare i colori della luce, sfruttando la sua natura ondulatoria. En óptica, una red de difracción (también denominada rejilla o retícula de difracción) es un componente óptico con una estructura periódica que divide la luz difractándola en varios haces que viajan en diferentes direcciones. La coloración emergente es una forma de coloración estructural. Las direcciones de estos rayos dependen del espaciado de la rejilla y de la longitud de onda de la luz, de modo que la rejilla actúa como el elemento dispersivo. Debido a esto, las rejillas se usan comúnmente en óptica como elementos monocromadores y en espectrometría. In optics, a diffraction grating is an optical component with a periodic structure that diffracts light into several beams travelling in different directions (i.e., different diffraction angles). The emerging coloration is a form of structural coloration. The directions or diffraction angles of these beams depend on the wave (light) incident angle to the diffraction grating, the spacing or distance between adjacent diffracting elements (e.g., parallel slits for a transmission grating) on the grating, and the wavelength of the incident light. The grating acts as a dispersive element. Because of this, diffraction gratings are commonly used in monochromators and spectrometers, but other applications are also possible such as optical encoders for high precision motion control and wavefront measurement. For typical applications, a reflective grating has ridges or rulings on its surface while a transmissive grating has transmissive or hollow slits on its surface. Such a grating modulates the amplitude of an incident wave on it to create a diffraction pattern. There are also gratings that modulate the phases of incident waves rather than the amplitude, and these type of gratings can be produced frequently by using holography. James Gregory (1638–1675) observed the diffraction patterns caused by a bird feather, which was effectively the first diffraction grating (in a natural form) to be discovered, about a year after Isaac Newton's prism experiments. The first man-made diffraction grating was made around 1785 by Philadelphia inventor David Rittenhouse, who strung hairs between two finely threaded screws. This was similar to notable German physicist Joseph von Fraunhofer's wire diffraction grating in 1821. The principles of diffraction were discovered by Thomas Young and Augustin-Jean Fresnel. Using these principles, Fraunhofer was the first who used a diffraction grating to obtain line spectra and the first who measured the wavelengths of spectral lines with a diffraction grating. Gratings with the lowest line-distance (d) were created, in the 1860s, by Friedrich Adolph Nobert (1806–1881) in Greifswald; then the two Americans Lewis Morris Rutherfurd (1816–1892) and William B. Rogers (1804–1882) took over the lead; and, by the end of the 19th century, the concave gratings of Henry Augustus Rowland (1848–1901) were the best available. A diffraction grating can create "rainbow" colors when it is illuminated by a wide-spectrum (e.g., continuous) light source. Rainbow-like colors from closely spaced narrow tracks on optical data storage disks such as CDs or DVDs are an example of light diffraction caused by diffraction gratings. A usual diffraction grating has parallel lines (It is true for 1-dimensional gratings, but 2 or 3-dimensional gratings are also possible and they have their own applications such as wavefront measurement), while a CD has a spiral of finely spaced data tracks. Diffraction colors also appear when one looks at a bright point source through a translucent fine-pitch umbrella-fabric covering. Decorative patterned plastic films based on reflective grating patches are inexpensive and commonplace. A similar color separation seen from thin layers of oil (or gasoline, etc.) on water, known as iridescence, are not caused by diffraction from a grating but rather by thin film interference from the closely stacked transmissive layers. Un réseau de diffraction est un dispositif optique composé d'une série de fentes parallèles (réseau en transmission), ou de rayures réfléchissantes (réseau en réflexion). Ces traits sont espacés de manière régulière, et l'espacement est appelé le « pas » du réseau. Si la distance entre plusieurs traits est de l'ordre de grandeur de la longueur de cohérence spatiale de la lumière incidente, le réseau permet d'obtenir des figures de diffraction particulières influencées par la répétition. Il s'agit donc d'un effet de diffraction lié à la répétition d'une structure optique, distinct de l'effet issu de la diffraction par une structure de taille comparable à la longueur d'onde, comme une fente de Young. Lorsque la lumière blanche est incidente sur un réseau, celui-ci décompose la lumière sous différents angles, selon ses longueurs d'onde (ou couleurs) constitutives. Ce phénomène se produit de manière similaire à un prisme (voir image). Les réseaux sont donc utilisés dans de nombreuses applications, notamment les spectromètres et les monochromateurs. Si la lumière incidente est monochromatique (composée d'une seule longueur d'onde), le réseau réfléchit plusieurs taches ; la direction de réflexion des taches dépend de la distance entre les traits et de la longueur d'onde. La déviation est d'autant plus grande que la longueur d'onde est grande ou que le pas est petit. Puisque les disques compacts ont une structure répétée de l'ordre de grandeur de la longueur d'onde de la lumière visible, on peut observer la diffraction de la lumière sur ceux-ci à l'œil nu. La lumière est diffractée par les pistes constituées des bits et qui jouent le rôle des traits du réseau. 회절격자(回折格子, diffraction grating)는 광학에서 빛을 입사시키면 여러 다른 방향으로 빛살을 회절시키는 도구이다. 회절 방향은 격자의 배치와 빛의 파장에 따라 달라진다. 이러한 성질을 이용하여 단색기나 분광기에 회절격자가 쓰인다. Siatka dyfrakcyjna – przyrząd do przeprowadzania analizy widmowej światła. Tworzy ją układ równych, równoległych i jednakowo rozmieszczonych szczelin. Stała siatki dyfrakcyjnej to parametr charakteryzujący siatkę dyfrakcyjną. Wyraża on rozstaw szczelin siatki (odległość między środkami kolejnych szczelin). Siatka transmisyjna jest to przezroczysta płytka. Na jedną ze stron płytki zostaje naniesiona seria równoległych nieprzezroczystych linii, o stałym i odpowiednio małym rozstawie – od kilkunastu linii na milimetr aż do tysiąca w przypadku dobrych siatek. Działanie siatki dyfrakcyjnej polega na wykorzystaniu zjawiska dyfrakcji i interferencji światła do uzyskania jego widma. W tym celu pomiędzy źródłem światła a ekranem umieszcza się siatkę dyfrakcyjną. Na ekranie uzyskuje się w ten sposób widmo światła. Typowa siatka dyfrakcyjna ma 12000 szczelin na cal. Stała takiej siatki wynosi 2116 nm (d = 2,54 cm/12 000). Układ dwóch szczelin w doświadczeniu Tomasa Younga był pierwowzorem siatki dyfrakcyjnej. Siatka jako układ wielu szczelin została wynaleziona w 1821 roku przez Fraunhofera. Była pierwszym instrumentem pozwalającym wyznaczyć długość fal świetlnych. Prążki jasne powstają dla kątów spełniających warunek: gdzie: – długość fali, – stała siatki, – liczba naturalna zwana rządem widma.
gold:hypernym: dbr:Component
prov:wasDerivedFrom: wikipedia-en:Diffraction_grating?oldid=1117765101&ns=0
dbo:wikiPageLength: 46547
foaf:isPrimaryTopicOf: wikipedia-en:Diffraction_grating

Subject Item: dbr:Diffraction_spike
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Diffractive_beam_splitter
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Diffuse_interstellar_bands
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Direct_laser_interference_patterning
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Flow_cytometry
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Fluorescence_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Forced_Rayleigh_scattering
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Foucault_knife-edge_test
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Fourier-transform_infrared_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:History_of_optics
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:History_of_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Kapitsa–Dirac_effect
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Kenwood_Astrophysical_Observatory
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Wave_interference
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Wavelet
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Length_measurement
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Lens_antenna
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Lens_flare
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:RAVE_(survey)
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Harold_Urey
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Helium_trimer
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Henry_August_Rowland_House
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Henry_Augustus_Rowland
dbo:wikiPageWikiLink: dbr:Diffraction_grating
dbp:knownFor: dbr:Diffraction_grating
dbo:knownFor: dbr:Diffraction_grating

Subject Item: dbr:Hida_salamander
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Atom_interferometer
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:TanSat
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Solar_geoengineering
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:AEgIS_experiment
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:ASTRID2
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Acousto-optics
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Chandra_X-ray_Observatory
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Blazed_grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Surface_plasmon_polariton
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Echelle_grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Henry_Joseph_Grayson
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:HiPER
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Hibiscus_trionum
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Holographic_grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Holographic_optical_element
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Holography
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:White_Book_(CD_standard)
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:X-ray_fluorescence
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Zone_plate
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Mode_locking
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Stray_light
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Dispersion_(optics)
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Artificial_dielectrics
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Azygocypridina_lowryi
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Marie_Alfred_Cornu
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Marrella
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Pierella
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Plagioclase
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Plane_of_polarization
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Spark-gap_transmitter
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Fiber_Bragg_grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Fibre_multi-object_spectrograph
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Free_spectral_range
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Frequency-resolved_optical_gating
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Green_hairstreak
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Grism
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Guided-mode_resonance
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Grating_Equation
dbo:wikiPageWikiLink: dbr:Diffraction_grating
dbo:wikiPageRedirects: dbr:Diffraction_grating

Subject Item: dbr:Grating_equation
dbo:wikiPageWikiLink: dbr:Diffraction_grating
dbo:wikiPageRedirects: dbr:Diffraction_grating

Subject Item: dbr:Incandescent_light_bulb
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Incoherent_broad-band_cavity-enhanced_absorption_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Kodaikanal_Solar_Observatory
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Microwave
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Bryan-Gooding_Planetarium
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:OLPC_XO
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Opal
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Canadian_Synchrotron_Radiation_Facility
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Wiwaxia
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:X-ray_crystallography
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Optical_cavity
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Polarization_ripples
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Selected_area_diffraction
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:SOPHIE_échelle_spectrograph
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Shearing_interferometer
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Volkert_Simon_Maarten_van_der_Willigen
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Wadsworth_constant_deviation_system
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Wavefront
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:White_light_interferometry
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Near-field_optics
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Near-infrared_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Thomas_Ralph_Merton
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:X-ray_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Extreme_ultraviolet_Imaging_Telescope
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Littrow_prism
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Lumus
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Optics
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Observational_error
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Off-axis_illumination
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Ultrasonic_grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Plasmonic_lens
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Rotational–vibrational_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Spectronic_20
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Ultraviolet–visible_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Plasmon
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Nanophotonic_coherent_imager
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Spectrometer
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Monochromatic_radiation
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Monochromator
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Multifocal_diffractive_lens
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Multiphoton_intrapulse_interference_phase_scan
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Photon-induced_electric_field_poling
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Photothermal_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Physics_of_optical_holography
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Quantum_carpet
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Piezospectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Single-shot_multi-contrast_X-ray_imaging
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Solid-state_laser
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Vernier_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Phase-contrast_imaging
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Resonance_Raman_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Talaria_projector
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Screw-cutting_lathe
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Ultrafast_monochromator
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:X-ray_emission_spectroscopy
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Virtually_imaged_phased_array
dbo:wikiPageWikiLink: dbr:Diffraction_grating

Subject Item: dbr:Transmission_grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating
dbo:wikiPageRedirects: dbr:Diffraction_grating

Subject Item: dbr:Rowland_grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating
dbo:wikiPageRedirects: dbr:Diffraction_grating

Subject Item: dbr:Concave_grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating
dbo:wikiPageRedirects: dbr:Diffraction_grating

Subject Item: dbr:Reflection_Grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating
dbo:wikiPageRedirects: dbr:Diffraction_grating

Subject Item: dbr:Reflection_grating
dbo:wikiPageWikiLink: dbr:Diffraction_grating
dbo:wikiPageRedirects: dbr:Diffraction_grating

Subject Item: dbr:Diffraction_order
dbo:wikiPageWikiLink: dbr:Diffraction_grating
dbo:wikiPageRedirects: dbr:Diffraction_grating

Subject Item: dbr:Diffractor
dbo:wikiPageWikiLink: dbr:Diffraction_grating
dbo:wikiPageRedirects: dbr:Diffraction_grating

Subject Item: wikipedia-en:Diffraction_grating
foaf:primaryTopic: dbr:Diffraction_grating