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[[Berkas:Michelsonmorley-boxplot.svg|
'''Percobaan Michelson-Morley''', salah satu percobaan paling penting dan masyhur dalam [[sejarah fisika]], dilakukan pada tahun [[1887]] oleh [[Albert Michelson]] dan [[:en:Edward Morley|Edward Morley]] di tempat yang sekarang menjadi kampus [[:en:Case Western Reserve University|Case Western Reserve University]]
Dalam percobaan ini Michelson dan Morley berusaha mengukur kecepatan planet [[Bumi]] terhadap ether, yang pada waktu itu dianggap sebagai medium perambatan gelombang [[cahaya]]. Analisis terhadap hasil percobaan menunjukkan kegagalan pengamatan pergerakan bumi terhadap ether.<ref>[http://math.ucr.edu/home/baez/physics/Relativity/SR/experiments.html#the_MMX Experimental Basis of Special Relativity:The Michelson-Morley Experiment]</ref>
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:<math>T_{t}=\frac{2L}{\sqrt{c^{2}-v^{2}}}=\frac{2L}{c}\frac{1}{\sqrt{1-\frac{v^{2}}{c^{2}}}}\approx\frac{2L}{c}\left(1+\frac{v^{2}}{2c^{2}}\right)</math>
The time difference between ''T<sub>l</sub>'' and ''T<sub>t</sub>'' before rotation is given by<ref group=A>{{cite book |author=Albert Shadowitz |title=Special relativity |url=https://archive.org/details/specialrelativit0000shad |isbn=0-486-65743-4 |publisher=Courier Dover Publications |edition=Reprint of 1968 edition |year=1988|pages=
:<math>T_{l}-T_{t}=\frac{2}{c}\left(\frac{L}{1-\frac{v^{2}}{c^{2}}}-\frac{L}{\sqrt{1-\frac{v^{2}}{c^{2}}}}\right)</math>.
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== Hasil percobaan ==
Dalam tabel di bawah ini, nilai-nilai yang diharapkan dikaitkan dengan kecepatan relatif antara Bumi dan Matahari sebesar 30 km/detik (=km/s). Dengan perbandingan kecepatan [[Tata Surya|tata surya]] terhadap pusat galaksi [[Bima Sakti]] sebesar 220 km/detik, atau kecepatan tata surya relatif terhadap [[:en:cosmic microwave background radiation#CMBR dipole anisotropy|CMB rest frame]] sekitar 368 km/detik, hasil "nol" (null results) percobaan-percobaan ini lebih nyata jelas.
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== Percobaan-percobaan selanjutnya ==
=== Uji optik ===
Pengujian optik isotropi kecepatan cahaya menjadi lebih umum.<ref group=A >Relativity FAQ (2007): [http://math.ucr.edu/home/baez/physics/Relativity/SR/experiments.html What is the experimental basis of Special Relativity?]</ref> Teknologi baru, termasuk penggunaan [[laser]] dan [[maser]], telah meningkatkan ketepatan pengukuran secara signifikan.<!-- (In the following table, only Essen (1955), Jaseja (1964), and Shamir/Fox (1969) are experiments of Michelson–Morley type, ''i.e.'' comparing two perpendicular beams. The other optical experiments employed different methods.)-->
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[[
=== Percobaan dengan resonator optik ===
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! Penulis !! Tahun !! Pemerian !! Δ''c/c''
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| Wolf ''et al.''<ref name=wolf1 />||2003 || Frekuensi suatu ''stationary cryogenic microwave oscillator'', terbuat dari sapphire crystal beroperasi dalam suatu [[:en:Whispering-gallery wave|whispering gallery mode]], dibandingkan dengan suatu [[:en:hydrogen maser|maser hidrogen]] yang frekuensinya dibandingkan dengan jam ''[[atomic fountain|pancuran atom]] '' [[caesium]] dan [[rubidium]]. Perubahan dari rotasi bumi dilacak. Memuat
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| Müller ''et al.''<ref name=Muller2003 />||2003 || Dua resonator optik dibuat dari crystalline sapphire, mengontrol frekuensi dua [[:en:Nd:YAG laser|Nd:YAG laser]], diletakkan pada sudut siku di dalam suatu helium cryostat. Suatu alat pembanding frekuensi mengukur frekuensi detak output gabungan kedua resonator itu.
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| Wolf ''et al.''<ref name=wolf2 />||2004 || Lihat Wolf ''et al.'' (2003). Menerapkan kontrol temperatur aktif. Memuat
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| Wolf ''et al.''<ref name=wolf3 />||2004 || Lihat Wolf ''et al.'' (2003). Memuat
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| Antonini ''et al.''<ref name=antonini />||2005|| Mirip dengan Müller ''et al.'' (2003)<!--, though the apparatus itself was set into rotation.--> Memuat
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| Stanwix ''et al.''<ref name=stanwix />||2005 || Mirip dengan Wolf ''et al.'' (2003).<!-- The frequency of two cryogenic oscillators was compared. In addition, the apparatus was set into rotation. -->Memuat
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| Herrmann ''et al.''<ref name=Herrmann1 />||2005 || Mirip dengan Müller ''et al.'' (2003). <!--The frequencies of two optical [[Fabry–Pérot interferometer|Fabry–Pérot resonators]] cavities are compared – one cavity was continuously rotating while the other one was stationary oriented north–south.--> Memuat
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| Stanwix ''et al.''<ref name=stanwix2 />||2006 || Lihat Stanwix ''et al.'' (2005). Memuat
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| Müller ''et al.''<ref name=Muller2007 />||2007 || Lihat Herrmann ''et al.'' (2005) dan Stanwix ''et al.'' (2006). Data kedua grup ini yang dikumpulkan dari tahun 2004–2006 digabungkan dan
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| Eisele ''et al.''<ref name=Eisele />||2009|| Frekuensi sepasang ''orthogonal oriented optical standing wave cavities'' dibandingkan. Semua cavities ini diinterogasi oleh suatu [[Nd:YAG laser]]. Memuat
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| style="white-space:nowrap;"| Herrmann ''et al.''<ref name=Herrmann2 />||2009 || Mirip dengan Herrmann ''et al.'' (2005). Frekuensi sepasang ''rotating, orthogonal optical [[:en:Fabry–Pérot interferometer|Fabry–Pérot resonators]]'' dibandingkan. Frekuensi dua [[:en:Nd:YAG laser|Nd:YAG laser]] distabilkan terhadap resonansi resonator-resonator ini.
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=== Pengujian lain terhadap invariansi Lorentz ===
<!--{{Further|Modern searches for Lorentz violation}}-->
[[
Contoh-contoh percobaan yang tidak didasarkan pada prinsip Michelson–Morley, yaitu pengujian isotropi non-optik yang menghasilkan tingkat ketepatan yang bahkan lebih tinggi, adalah [[:en:Hughes–Drever experiment|Perbandingan jam atau percobaan Hughes–Drever]].<!-- In Drever's 1961 experiment, <sup>7</sup>Li nuclei in the ground state, which has total angular momentum ''J''=3/2, were split into four equally spaced levels by a magnetic field. Each transition between a pair of adjacent levels should emit a photon of equal frequency, resulting in a single, sharp spectral line. However, since the nuclear wave functions for different ''M<sub>J</sub>'' have different orientations in space relative to the magnetic field, any orientation dependence, whether from an aether wind or from a dependence on the large-scale distribution of mass in space (see [[Mach's principle]]), would perturb the energy spacings between the four levels, resulting in an anomalous broadening or splitting of the line. No such broadening was observed. Modern repeats of this kind of experiment have provided some of the most accurate confirmations of the principle of [[Lorentz covariance|Lorentz invariance]].--><ref group=A name=haugan/>
== Lihat pula ==
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<!--ref name=desit>{{Citation|author=De Sitter, Willem|title=[[s:On the constancy of the velocity of light|On the constancy of the velocity of light]]|journal=Proceedings of the Royal Netherlands Academy of Arts and Sciences|volume=16|issue=1|year=1913|pages=395–396}}</ref-->
<ref name=Eisele>{{cite journal|author=Eisele, Ch.; Nevsky, A. Yu.; Schiller, S.|title=Laboratory Test of the Isotropy of Light Propagation at the 10<sup>−17</sup> level|journal=Physical Review Letters|volume=103|issue=9|page=090401|year=2009|doi=10.1103/PhysRevLett.103.090401|bibcode
<ref name=essen>{{Cite journal|author=Essen, L.|title=A New Æther-Drift Experiment|journal=Nature|volume=175|issue=4462|pages=793–794|year=1955|doi=10.1038/175793a0|bibcode = 1955Natur.175..793E }}</ref>
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<ref>E.W. silversmith "Special Relativity", Nature magazine, vol. 322 [AUG. 1986], P.590: the filed exists, per the United States Air Force research, and it measured precisely as Michaelson and Morely predicted.</ref>
=== Bibliografi (referensi seri "A") ===
{{Reflist|30em|group=A|refs=
<!--<ref name=blum>{{cite book
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|first = A
|authorlink = Albert Einstein
|date = June 30, 1905
|journal = Annalen der Physik
|volume = 17
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|format = PDF
|accessdate = 2009-11-27
}}{{dead link|date=October 2013}} English translation: {{cite web
|url =http://www.fourmilab.ch/etexts/einstein/specrel/www/
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}}</ref>
<ref name=einstein2>{{Citation|author=Einstein A.
<ref name=Feynman>{{Citation
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|isbn=0-201-02115-3}}</ref>
<ref name=Fickinger>{{cite book
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<ref name=haugan>{{cite journal
<ref name=hoover>{{cite book
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<ref name=Jan>{{Cite book|last=Janssen
<ref name=laub>{{Cite journal|author=Laub, Jakob|title=Über die experimentellen Grundlagen des Relativitätsprinzips (On the experimental foundations of the principle of relativity)|journal=Jahrbuch der Radioaktivität und Elektronik|volume=7|year=1910|pages=405–463}}</ref>
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|doi=10.1038/021314c0}}</ref>
<ref name=michel1928>{{cite journal
-->
<ref name=Miller1933>{{cite journal|author=Miller, Dayton C.|title=The Ether-Drift Experiment and the Determination of the Absolute Motion of the Earth|journal=Reviews of Modern Physics|volume=5|issue=3|year=1933|pages=203–242|doi=10.1103/RevModPhys.5.203|bibcode=1933RvMP....5..203M}}</ref>
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<ref name=AIMiller>{{Cite book|last=Miller, A.I.
<ref name=norton>{{Cite journal|author=Norton, John D.|year=2004|journal=Archive for History of Exact Sciences|title= Einstein's Investigations of Galilean Covariant Electrodynamics prior to 1905|pages= 45–105|volume=59|url=http://philsci-archive.pitt.edu/archive/00001743/|doi=10.1007/s00407-004-0085-6|bibcode=2004AHES...59...45N}}</ref>
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<ref name=Polanyi>[[Michael Polanyi]], ''Personal Knowledge: Towards a Post-Critical Philosophy'', ISBN 0-226-67288-3, footnote page 10–11: Einstein reports, via Dr N Balzas in response to Polanyi's query, that "The Michelson–Morley experiment had no role in the foundation of the theory." and "..the theory of relativity was not founded to explain its outcome at all."[http://books.google.com/books?id=0Rtu8kCpvz4C&lpg=PP1&pg=PT19#v=onepage&q=&f=false]</ref>
-->
<ref name=rob>{{cite journal
<ref name=sexl>{{Cite journal
<!--
<ref name=shankland>{{cite journal
<ref name=shankland2>{{cite journal|author=Shankland, R.S.|title=Michelson–Morley experiment|journal=American Journal of Physics|year=1964|volume=31|issue=1|pages=16–35|doi=10.1119/1.1970063|bibcode = 1964AmJPh..32...16S }}</ref>
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<ref name=Swenson1>{{Cite journal
|last=Swenson
|year=1970
|title=The Michelson–Morley–Miller Experiments before and after 1905
|journal=Journal for the History of Astronomy
|volume=1
|pages=56–78
|url=http://adsabs.harvard.edu//abs/1970JHA.....1...56S|bibcode = 1970JHA.....1...56S}}</ref>
<ref name=Swenson2>{{cite book
<ref name=teller>{{Citation|author=[[Edward Teller]], Wendy Teller, Wilson Talley|title=Conversations on the Dark Secrets of Physics|year=2002|publisher=Basic books|isbn=0786752378|pages=10–11|url=http://books.google.com/books?id=QClyAWecl60C&pg=PA10}}</ref>
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<ref name=Thirring>{{Cite journal|author=Thirring, Hans|year=1926|journal=Nature|title=Prof. Miller's Ether Drift Experiments|pages= 81–82|volume=118|issue=2959|doi=10.1038/118081c0|bibcode = 1926Natur.118...81T }}</ref>
<ref name=Whittaker>{{Cite book|last=Whittaker
<ref name=schum94>{{cite journal|last=Schumacher|first=Reinhard A.|title=Special Relativity and the Michelson-Morley Interferometer|journal=American Journal of Physics|year=1994|volume=62|pages=609-612|doi=10.1119/1.17535|bibcode = 1994AmJPh..62..609S }}</ref>-->
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== Pranala luar ==
{{commonscat|Michelson–Morley experiment}}
* {{Wikibooks-inline|links=[[b:Special Relativity/Aether#Mathematical analysis of the Michelson Morley Experiment|Mathematical analysis of the Michelson Morley Experiment]]}}
* {{cite web |last=Roberts |first=T |last2=Schleif |first2=S |last3=Dlugosz |first3=JM (ed.) |year=2007 |title=What is the experimental basis of Special Relativity? |url=http://math.ucr.edu/home/baez/physics/Relativity/SR/experiments.html |work=Usenet Physics FAQ |publisher=[[University of California, Riverside]]}}
* {{en icon}} [http://carnap.umd.edu/phil250/aether_drift/interferometers.html Interferometer yang digunakan dalam percobaan hanyutan ether dari 1881-1931] {{Webarchive|url=https://web.archive.org/web/20070311002421/http://carnap.umd.edu/phil250/aether_drift/interferometers.html |date=2007-03-11 }}
* {{en icon}} [http://link.aps.org/abstract/PRL/v91/e020401 Modern Michelson-Morley Experiment improves the best previous result by two orders of magnitude, dari 2003]
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