Slick Slit
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Slick Slit
In slick 1.5 you can now add settings using the data-slick attribute. You still need to call $(element).slick() to initialize
slick on the element.
If you really want to be that guy...
Note: the HTML tag or the parent of the slider must have the attribute "dir" set to "rtl".
Move the /slick folder into your project
Add slick.js before your closing tag, after jQuery (requires jQuery 1.7 +)
Initialize your slider in your script file or an inline script tag
When complete, your HTML should look something like:
NOTE: I highly recommend putting your initialization script in an external JS file.
In slick 1.4, callback methods have been deprecated and replaced with events. Use them as shown below:
Methods are called on slick instances through the slick method itself in version 1.4, see below:
This new syntax allows you to call any internal slick method as well:
You can also use slick with the jsDelivr CDN!
If you like slick, and also like Sass, try my
Guff mixin library!
Enables tabbing and arrow key navigation
Enables adaptive height for single slide horizontal carousels.
Set the slider to be the navigation of other slider (Class or ID Name)
Change where the navigation arrows are attached (Selector, htmlString, Array, Element, jQuery object)
Change where the navigation dots are attached (Selector, htmlString, Array, Element, jQuery object)
string (html|jQuery selector) | object (DOM node|jQuery object)
Previous
Allows you to select a node or customize the HTML for the "Previous" arrow.
string (html|jQuery selector) | object (DOM node|jQuery object)
Next
Allows you to select a node or customize the HTML for the "Next" arrow.
Enables centered view with partial prev/next slides. Use with odd numbered slidesToShow counts.
Side padding when in center mode (px or %)
Custom paging templates. See source for use example.
Class for slide indicator dots container
Enable focus on selected element (click)
Add easing for jQuery animate. Use with easing libraries or default easing methods
Resistance when swiping edges of non-infinite carousels
Set lazy loading technique. Accepts 'ondemand' or 'progressive'
Responsive settings use mobile first calculation
Pause Autoplay when a dot is hovered
Width that responsive object responds to. Can be 'window', 'slider' or 'min' (the smaller of the two)
Object containing breakpoints and settings objects (see demo). Enables settings sets at given screen width. Set settings
to "unslick" instead of an object to disable slick at a given breakpoint.
Setting this to more than 1 initializes grid mode. Use slidesPerRow to set how many slides should be in each row.
With grid mode intialized via the rows option, this sets how many slides are in each grid row. dver
Allow users to drag or swipe directly to a slide irrespective of slidesToScroll
To advance slides, the user must swipe a length of (1/touchThreshold) * the width of the slider
Change the slider's direction to become right-to-left
Ignores requests to advance the slide while animating
Set the zIndex values for slides, useful for IE9 and lower
When slider is destroyed, or unslicked.
Fires when an edge is overscrolled in non-infinite mode.
Fires after every re-initialization
int : slide number, boolean: dont animate
html or DOM object, index, addBefore
Add a slide. If an index is provided, will add at that index, or before if addBefore is set. If no index is provided,
add to the end or to the beginning if addBefore is set. Accepts HTML String || Object
Remove slide by index. If removeBefore is set true, remove slide preceding index, or the first slide if no index is
specified. If removeBefore is set to false, remove the slide following index, or the last slide if no index is set.
Filters slides using jQuery .filter()
option : string, value : depends on option, refresh : boolean
Sets an individual value live. Set refresh to true if it's a UI update.
From Wikipedia, the free encyclopedia
"Slit experiment" redirects here. For other uses, see Diffraction .
Physics experiment, showing light can be modelled by both waves and particles
Photons or particles of matter (like an electron) produce a wave pattern when two slits are used
Light from a green laser passing through two slits 0.4mm wide and 0.1mm apart
Simulation of a particle wave function: double slit experiment. The white blur represents the wave. The whiter the pixel, the greater the probability of finding a particle in that place if measured.
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Trajectories of particles under De Broglie–Bohm theory in the double-slit experiment.
100 trajectories guided by the wave function. In De Broglie-Bohm's theory, a particle is represented, at any time, by a wave function and a position (center of mass). This is a kind of augmented reality compared to the standard interpretation.
Numerical simulation of the double-slit experiment with electrons. Figure on the left: evolution (from left to right) of the intensity of the electron beam at the exit of the slits (left) up to the detection screen located 10cm after the slits (right). The higher the intensity, the more the color is light blue - Figure in the center: impacts of the electrons observed on the screen - Figure on the right: intensity of the electrons in the far field approximation (on the screen). Numerical data from Claus Jönsson's experiment (1961). Photons, atoms and molecules follow a similar evolution.
^ Young, Thomas (1804). "The Bakerian lecture. Experiments and calculation relative to physical optics" . Philosophical Transactions of the Royal Society of London . 94 : 1–16. doi : 10.1098/rstl.1804.0001 . S2CID 110408369 . Retrieved 14 July 2021 .
^ Jump up to: a b " Physicists Smash Record For Wave–Particle Duality "
^ Jump up to: a b Eibenberger, Sandra; et al. (2013). "Matter-wave interference with particles selected from a molecular library with masses exceeding 10000 amu". Physical Chemistry Chemical Physics . 15 (35): 14696–14700. arXiv : 1310.8343 . Bibcode : 2013PCCP...1514696E . doi : 10.1039/C3CP51500A . PMID 23900710 . S2CID 3944699 .
^ While there is no doubt that Young's demonstration of optical interference, using sunlight, pinholes and cards, played a vital part in the acceptance of the wave theory of light, there is some question as to whether he ever actually performed a double-slit interference experiment.
Robinson, Andrew (2006). The Last Man Who Knew Everything . New York, NY: Pi Press. pp. 123–124 . ISBN 978-0-13-134304-7 .
^ Jump up to: a b Lederman, Leon M.; Christopher T. Hill (2011). Quantum Physics for Poets . US: Prometheus Books. pp. 102–111. ISBN 978-1616142810 .
^ Jump up to: a b c d e f Feynman, Richard P.; Robert B. Leighton; Matthew Sands (1965). The Feynman Lectures on Physics, Vol. 3 . Addison-Wesley. pp. 1.1–1.8. ISBN 978-0201021189 .
^ Feynman, 1965, p. 1.5
^ Darling, David (2007). "Wave–Particle Duality" . The Internet Encyclopedia of Science . The Worlds of David Darling . Retrieved 18 October 2008 .
^ Feynman, 1965, p. 1.7
^ Leon Lederman; Christopher T. Hill (27 September 2011). Quantum Physics for Poets . Prometheus Books, Publishers. p. 109. ISBN 978-1-61614-281-0 .
^ " ...if in a double-slit experiment, the detectors which register outcoming photons are placed immediately behind the diaphragm with two slits: A photon is registered in one detector, not in both... " Müller-Kirsten, H. J. W. (2006). Introduction to Quantum Mechanics: Schrödinger Equation and Path Integral . US: World Scientific. p. 14. ISBN 978-981-2566911 .
^ Plotnitsky, Arkady (2012). Niels Bohr and Complementarity: An Introduction . US: Springer. pp. 75–76. ISBN 978-1461445173 .
^ " It seems that light passes through one slit or the other in the form of photons if we set up an experiment to detect which slit the photon passes, but passes through both slits in the form of a wave if we perform an interference experiment. " Rae, Alastair I.M. (2004). Quantum Physics: Illusion Or Reality? . UK: Cambridge University Press. pp. 9–10. ISBN 978-1139455275 .
^ Feynman, The Feynman Lectures on Physics , 3 :Quantum Mechanics p.1-1 "There is one lucky break, however— electrons behave just like light.".
^ See: Davisson–Germer experiment Davisson, C. J (1928). "The diffraction of electrons by a crystal of nickel". Bell System Technical Journal . 7 : 90–105. doi : 10.1002/j.1538-7305.1928.tb00342.x .
^ Yaakov Y. Fein; Philipp Geyer; Patrick Zwick; Filip Kiałka; Sebastian Pedalino; Marcel Mayor; Stefan Gerlich; Markus Arndt (September 2019). "Quantum superposition of molecules beyond 25 kDa". Nature Physics . 15 (12): 1242–1245. Bibcode : 2019NatPh..15.1242F . doi : 10.1038/s41567-019-0663-9 . S2CID 203638258 .
^ Charles Sanders Peirce first proposed the use of this effect as an artifact-independent reference standard for length
C.S. Peirce (July 1879). "Note on the Progress of Experiments for Comparing a Wave-length with a Meter". American Journal of Science , as referenced by Crease, Robert P. (2011). World in the Balance: The historic quest for an absolute system of measurement . New York: W.W. Norton. p. 317. ISBN 978-0-393-07298-3 . p. 203.
^ Greene, Brian (1999). The Elegant Universe: Super Strings, Hidden Dimensions, and the Quest for the Ultimate Theory . New York: W.W. Norton. pp. 97–109 . ISBN 978-0-393-04688-5 .
^ Feynman, 1965, chapter 3
^ Sir Geoffrey, Ingram Taylor (1909). "Interference Fringes with Feeble Light". Prof. Cam. Phil. Soc . 15 : 114.
^ Jönsson, Claus (1 August 1961). "Elektroneninterferenzen an mehreren künstlich hergestellten Feinspalten". Zeitschrift für Physik (in German). 161 (4): 454–474. Bibcode : 1961ZPhy..161..454J . doi : 10.1007/BF01342460 . ISSN 0044-3328 . S2CID 121659705 .
^ Jönsson, Claus (1 January 1974). "Electron Diffraction at Multiple Slits". American Journal of Physics . 42 (1): 4–11. Bibcode : 1974AmJPh..42....4J . doi : 10.1119/1.1987592 . ISSN 0002-9505 .
^ Merli, P G; Missiroli, G F; Pozzi, G (1976). "On the statistical aspect of electron interference phenomena". American Journal of Physics . 44 (3): 306–307. Bibcode : 1976AmJPh..44..306M . doi : 10.1119/1.10184 .
^ Rosa, R (2012). "The Merli–Missiroli–Pozzi Two-Slit Electron-Interference Experiment" . Physics in Perspective . 14 (2): 178–194. Bibcode : 2012PhP....14..178R . doi : 10.1007/s00016-011-0079-0 . PMC 4617474 . PMID 26525832 .
^ "The most beautiful experiment" . Physics World 2002 | link is dead.
^ Frabboni, Stefano; Gabrielli, Alessandro; Carlo Gazzadi, Gian; Giorgi, Filippo; Matteucci, Giorgio; Pozzi, Giulio; Cesari, Nicola Semprini; Villa, Mauro; Zoccoli, Antonio (May 2012). "The Young-Feynman two-slits experiment with single electrons: Build-up of the interference pattern and arrival-time distribution using a fast-readout pixel detector". Ultramicroscopy . 116 : 73–76. doi : 10.1016/j.ultramic.2012.03.017 . ISSN 0304-3991 .
^
Sala, S.; Ariga, A.; Ereditato, A.; Ferragut, R.; Giammarchi, M.; Leone, M.; Pistillo, C.; Scampoli, P. (2019). "First demonstration of antimatter wave interferometry" . Science Advances . 5 (5): eaav7610. Bibcode : 2019SciA....5.7610S . doi : 10.1126/sciadv.aav7610 . PMC 6499593 . PMID 31058223 .
^ Greene, Brian (2007). The Fabric of the Cosmos: Space, Time, and the Texture of Reality . Random House LLC. p. 90. ISBN 978-0-307-42853-0 .
^ Donati, O; Missiroli, G F; Pozzi, G (1973). "An Experiment on Electron Interference". American Journal of Physics . 41 (5): 639–644. Bibcode : 1973AmJPh..41..639D . doi : 10.1119/1.1987321 .
^ Jump up to: a b New Scientist: Quantum wonders: Corpuscles and buckyballs, 2010 (Introduction, subscription needed for full text, quoted in full in [1] Archived 25 September 2017 at the Wayback Machine )
^ Wave Particle Duality of C60 Archived 31 March 2012 at the Wayback Machine
^ lNairz, Olaf; Brezger, Björn; Arndt, Markus; Anton Zeilinger, Abstract (2001). "Diffraction of Complex Molecules by Structures Made of Light". Phys. Rev. Lett . 87 (16): 160401. arXiv : quant-ph/0110012 . Bibcode : 2001PhRvL..87p0401N . doi : 10.1103/physrevlett.87.160401 . PMID 11690188 . S2CID 21547361 .
^ Nairz, O; Arndt, M; Zeilinger, A (2003). "Quantum interference experiments with large molecules" (PDF) . American Journal of Physics . 71 (4): 319–325. Bibcode : 2003AmJPh..71..319N . doi : 10.1119/1.1531580 . Archived from the original (PDF) on 8 August 2017 . Retrieved 4 June 2015 .
^ Stefan Gerlich; et al. (5 April 2011). "Quantum interference of large organic molecules" . Nature Communications . 2 : 263. Bibcode : 2011NatCo...2..263G . doi : 10.1038/ncomms1263 . PMC 3104521 . PMID 21468015 .
^ Yaakov Fein; et al. (December 2019). "Quantum superposition of molecules beyond 25kDa" . Nature Physics . 15 (12): 1242–1245. Bibcode : 2019NatPh..15.1242F . doi : 10.1038/s41567-019-0663-9 . S2CID 203638258 .
^ Greene, Brian (2004). The Fabric of the Cosmos: Space, Time, and the Texture of Reality . Knopf. pp. 204–213 . Bibcode : 2004fcst.book.....G . ISBN 978-0-375-41288-2 .
^ Vedral, Vlatko (2006). Introduction to Quantum Information Science . Oxford University Press. ISBN 9780199215706 . OCLC 442351498 .
^ Harrison, David (2002). "Complementarity and the Copenhagen Interpretation of Quantum Mechanics" . UPSCALE . Dept. of Physics, U. of Toronto . Retrieved 21 June 2008 .
^ Cassidy, David (2008). "Quantum Mechanics 1925–1927: Triumph of the Copenhagen Interpretation" . Werner Heisenberg . American Institute of Physics.
^ Boscá Díaz-Pintado, María C. (29–31 March 2007). "Updating the wave–particle duality" . 15th UK and European Meeting on the Foundations of Physics . Leeds, UK . Retrieved 21 June 2008 .
^ Bartell, L. (1980). "Complementarity in the double-slit experiment: On simple realizable systems for observing intermediate particle-wave behavior". Physical Review D . 21 (6): 1698–1699. Bibcode : 1980PhRvD..21.1698B . doi : 10.1103/PhysRevD.21.1698 .
^ Zeilinger, A. (1999). "Experiment and the foundations of quantum physics". Reviews of Modern Physics . 71 (2): S288–S297. Bibcode : 1999RvMPS..71..288Z . doi : 10.1103/RevModPhys.71.S288 .
^ P. Mittelstaedt; A. Prieur; R. Schieder (1987). "Unsharp particle-wave duality in a photon split-beam experiment". Foundations of Physics . 17 (9): 891–903. Bibcode : 1987FoPh...17..891M . doi : 10.1007/BF00734319 . S2CID 122856271 .
^ D.M. Greenberger and A. Yasin, "Simultaneous wave and particle knowledge in a neutron interferometer", Physics Letters A 128 , 391–4 (1988).
^ Wootters, W. K.; Zurek, W. H. (1979). "Complementarity in the double-slit experiment: Quantum nonseparability and a quantitative statement of Bohr's principle" (PDF) . Phys. Rev. D . 19 (2): 473–484. Bibcode : 1979PhRvD..19..473W . doi : 10.1103/PhysRevD.19.473 . Archived from the original (PDF) on 22 February 2014 . Retrieved 5 February 2014 .
^ Jump up to: a b Hillmer, R.; Kwiat, P. (2007). "A do-it-yourself quantum eraser" . Scientific American . Vol. 296, no. 5. pp. 90–95. Bibcode : 2007SciAm.296e..90H . doi : 10.1038/scientificamerican0507-90 . Retrieved 11 January 2016 .
^ Jump up to: a b Chiao, R. Y.; P. G. Kwiat; Steinberg, A. M. (1995). "Quantum non-locality in two-photon experiments at Berkeley". Quantum and Semiclassical Optics: Journal of the European Optical Society Part B . 7 (3): 259–278. arXiv : quant-ph/9501016 . Bibcode : 1995QuSOp...7..259C . doi : 10.1088/1355-5111/7/3/006 . S2CID 118987962 .
^ Francis, Matthew (21 May 2012). "Disentangling the wave–particle duality in the double-slit experiment" . Ars Technica .
^ Jump up to: a b Svensson, Bengt E. Y. (2013). "Pedagogical Review of Quantum Measurement Theory with an Emphasis on Weak Measurements". Quanta . 2 (1): 18–49. arXiv : 1202.5148 . doi : 10.12743/quanta.v2i1.12 .
^ Pfleegor, R. L.; Mandel, L. (July 1967). "Interference of Independent Photon Beams". Physical Review . 159 (5): 1084–1088. Bibcode : 1967PhRv..159.1084P . doi : 10.1103/PhysRev.159.1084 .
^ "Interference of Independent Photon Beams: The Pfleegor-Mandel Experiment" . Archived from the original on 3 January 2011 . Retrieved 16 June 2011 . >
^ Sillitto, R.M.; Wykes, Catherine (1972). "An interference experiment with light beams modulated in anti-phase by an electro-optic shutter". Physics Letters A . 39 (4): 333–334. Bibcode : 1972PhLA...39..333S . doi : 10.1016/0375-9601(72)91015-8 .
^ " "To a light particle" " .
^ Arndt, Markus; Nairz, Olaf; Vos-Andreae, Julian; Keller, Claudia; Van Der Zouw, Gerbrand; Zeilinger, Anton (1999). "Wave–particle duality of C60 molecules". Nature . 401 (6754): 680–682. Bibcode : 1999Natur.401..680A . doi : 10.1038/44348 . PMID 18494170 . S2CID 4424892 .
^ Schouten, H.F.; Kuzmin, N.; Dubois, G.; Visser, T.D.; Gbur, G. ; Alkemade, P.F.A.; Blok, H.; Hooft, G.W.; Lenstra, D.; Eliel, E.R. (7 February 2005). "Plasmon-Assisted Two-Slit Transmission: Young's Experiment Revisited" . Phys. Rev. Lett . 94 (5): 053901. Bibcode : 2005PhRvL..94e3901S . doi : 10.1103/physrevlett.94.053901 . hdl : 1887/71482 . PMID 15783641 .
^ Bach, Roger; et al. (March 2013). "Controlled double-slit electron diffraction". New Journal of Physics . 15 (3): 033018. arXiv : 1210.6243 . Bibcode
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