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Artículos de revistas sobre el tema "Large-Scales"

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Publicado: 25 de mayo de 2024

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1

Raccanelli, Alvise. "Testing gravity on Large Scales". EPJ Web of Conferences 58 (2013): 02013. http://dx.doi.org/10.1051/epjconf/20135802013.

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2

Drinkwater, M. "Quasar clustering on large scales". Monthly Notices of the Royal Astronomical Society 235, n.º 4 (1 de diciembre de 1988): 1111–20. http://dx.doi.org/10.1093/mnras/235.4.1111.

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3

Maddox, S. J., G. Efstathiou, W. J. Sutherland y J. Loveday. "Galaxy correlations on large scales". Monthly Notices of the Royal Astronomical Society 242, n.º 1 (1 de febrero de 1990): 43P—47P. http://dx.doi.org/10.1093/mnras/242.1.43p.

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4

Efstathiou, G. "Galaxy clustering on large scales." Proceedings of the National Academy of Sciences 90, n.º 11 (1 de junio de 1993): 4859–66. http://dx.doi.org/10.1073/pnas.90.11.4859.

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5

Mo, H. J. y L. Z. Fang. "Quasar clustering on large scales". Astrophysical Journal 410 (junio de 1993): 493. http://dx.doi.org/10.1086/172766.

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6

Beswick, K. M., T. W. Simpson, D. Fowler, T. W. Choularton, M. W. Gallagher, K. J. Hargreaves, M. A. Sutton y A. Kaye. "Methane emissions on large scales". Atmospheric Environment 32, n.º 19 (octubre de 1998): 3283–91. http://dx.doi.org/10.1016/s1352-2310(98)00080-6.

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7

Martínez, Vicent J. "(Non-)fractality on Large Scales". Symposium - International Astronomical Union 201 (2005): 168–77. http://dx.doi.org/10.1017/s0074180900216239.

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The debate about the possible smoothness of the Universe on large scales as opposed to an unbounded fractal hierarchy has been the subject of increasing interest in recent years. The controversy arises as a consequence of different statistical analyses performed on surveys of galaxy redshifts. I review the observational evidence supporting the idea that a gradual transition occurs in the galaxy distribution: from a fractal regime at small scales to large scale homogeneity.
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8

Wegner, Gary. "Gravity tested on large scales". Nature 477, n.º 7366 (septiembre de 2011): 541–43. http://dx.doi.org/10.1038/477541a.

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9

Maurer, Brian A. "Ecology and Evolution at Large Scales". Ecology 84, n.º 12 (diciembre de 2003): 3405–6. http://dx.doi.org/10.1890/0012-9658(2003)084[3405:eaeals]2.0.co;2.

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10

RUDNICK, LAWRENCE. "OBSERVING MAGNETIC FIELDS ON LARGE SCALES". Journal of The Korean Astronomical Society 37, n.º 5 (1 de diciembre de 2004): 329–35. http://dx.doi.org/10.5303/jkas.2004.37.5.329.

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11

Muriel, Hernan y Diego G. Lambas. "Alignments and filaments on large scales". Astronomical Journal 98 (diciembre de 1989): 1995. http://dx.doi.org/10.1086/115273.

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12

Zawadowski, A. G., J. Kertész y G. Andor. "Large price changes on small scales". Physica A: Statistical Mechanics and its Applications 344, n.º 1-2 (diciembre de 2004): 221–26. http://dx.doi.org/10.1016/j.physa.2004.06.121.

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13

Oberhuber, Josef M., Michael Herzog, Hans-F. Graf y Karsten Schwanke. "Volcanic plume simulation on large scales". Journal of Volcanology and Geothermal Research 87, n.º 1-4 (diciembre de 1998): 29–53. http://dx.doi.org/10.1016/s0377-0273(98)00099-7.

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14

Schroder, Rasmus R., Holger Blank, Andreas Schertel, Marlene Thaler, Alexander Orchowski y Irene Wacker. "Correlative large volume imaging across scales". Microscopy and Microanalysis 21, S3 (agosto de 2015): 415–16. http://dx.doi.org/10.1017/s1431927615002871.

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15

Martinez-Vazquez, P. y M. Sterling. "Predicting wheat lodging at large scales". Biosystems Engineering 109, n.º 4 (agosto de 2011): 326–37. http://dx.doi.org/10.1016/j.biosystemseng.2011.04.012.

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16

Michel, Patrik. "Prehospital Scales for Large Vessel Occlusion". Stroke 48, n.º 2 (febrero de 2017): 247–49. http://dx.doi.org/10.1161/strokeaha.116.015511.

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17

Pouquet, A., R. Marino, P. D. Mininni y D. Rosenberg. "Dual constant-flux energy cascades to both large scales and small scales". Physics of Fluids 29, n.º 11 (noviembre de 2017): 111108. http://dx.doi.org/10.1063/1.5000730.

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18

Doroshkevich, A. G. y A. A. Klypin. "Perturbations and streaming motions on large scales". Monthly Notices of the Royal Astronomical Society 235, n.º 3 (diciembre de 1988): 865–74. http://dx.doi.org/10.1093/mnras/235.3.865.

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19

Lum, Ka, David Chandler y John D. Weeks. "Hydrophobicity at Small and Large Length Scales". Journal of Physical Chemistry B 103, n.º 22 (junio de 1999): 4570–77. http://dx.doi.org/10.1021/jp984327m.

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20

Tesloianu, Dan, Vlad Ghizdovăţ, Irina Butuc, Constantin Grecea, Liliana Rosemarie Manea, Viorel Puiu-Păun, Maricel Agop y Cipriana Ştefănescu. "Structure Coherence at Small and Large Scales". Journal of Computational and Theoretical Nanoscience 12, n.º 12 (1 de diciembre de 2015): 5587–92. http://dx.doi.org/10.1166/jctn.2015.4687.

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21

Brodrick, P. G., L. D. L. Anderegg y G. P. Asner. "Forest Drought Resistance at Large Geographic Scales". Geophysical Research Letters 46, n.º 5 (marzo de 2019): 2752–60. http://dx.doi.org/10.1029/2018gl081108.

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22

Richter, D. "Polymer dynamics from large to small scales". Journal of Applied Crystallography 36, n.º 3 (16 de abril de 2003): 389–96. http://dx.doi.org/10.1107/s0021889803005053.

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23

Ralph, Elise A. "Scales and structures of large lake eddies". Geophysical Research Letters 29, n.º 24 (diciembre de 2002): 30–1. http://dx.doi.org/10.1029/2001gl014654.

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24

Kang, X., W. P. Lin, X. Dong, Y. O. Wang, A. Dutton y A. Macciò. "Galaxy alignment on large and small scales". Proceedings of the International Astronomical Union 11, S308 (junio de 2014): 448–51. http://dx.doi.org/10.1017/s1743921316010346.

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AbstractGalaxies are not randomly distributed across the universe but showing different kinds of alignment on different scales. On small scales satellite galaxies have a tendency to distribute along the major axis of the central galaxy, with dependence on galaxy properties that both red satellites and centrals have stronger alignment than their blue counterparts. On large scales, it is found that the major axes of Luminous Red Galaxies (LRGs) have correlation up to 30Mpc/h. Using hydro-dynamical simulation with star formation, we investigate the origin of galaxy alignment on different scales. It is found that most red satellite galaxies stay in the inner region of dark matter halo inside which the shape of central galaxy is well aligned with the dark matter distribution. Red centrals have stronger alignment than blue ones as they live in massive haloes and the central galaxy-halo alignment increases with halo mass. On large scales, the alignment of LRGs is also from the galaxy-halo shape correlation, but with some extent of mis-alignment. The massive haloes have stronger alignment than haloes in filament which connect massive haloes. This is contrary to the naive expectation that cosmic filament is the cause of halo alignment.
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25

Mollerach, Silvia, Diego Harari y Esteban Roulet. "Large scales anisotropies of extragalactic cosmic rays". Nuclear and Particle Physics Proceedings 273-275 (abril de 2016): 282–88. http://dx.doi.org/10.1016/j.nuclphysbps.2015.09.039.

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26

Guzzo, Luigi. "Is the universe homogeneous? (On large scales)". New Astronomy 2, n.º 6 (diciembre de 1997): 517–32. http://dx.doi.org/10.1016/s1384-1076(97)00037-7.

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27

Laing, R. A. "Large-Scale Structure: Jets on kiloparsec Scales". Symposium - International Astronomical Union 175 (1996): 147–52. http://dx.doi.org/10.1017/s0074180900080360.

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This paper examines some of the consequences of the hypothesis that jets in all radio galaxies and quasars are relativistic on small scales, in the sense that the flow velocity >0.5c. This idea is suggested by a number of lines of evidence. Firstly, Unified Models (Urry & Padovani, 1995) imply that the relativistic motion required in core-dominated objects must also occur in a larger parent population consisting of most, if not all, extended sources. Secondly, superluminal motion is detected in the nuclei of extended sources and in the kpc-scale jet of M 87 (Hough, 1994; Biretta, Zhou & Owen, 1995). Thirdly, jets are one-sided in the same sense on pc and kpc scales; at all luminosities, the radio emission tends to become more symmetrical on larger scales, as expected if an initially relativistic flow decelerates (Bridle & Perley, 1984; Bridle et al., 1994a; Parma et al., 1994). Finally, depolarization asymmetry occurs in both low (Parma, de Ruiter & Fanti, 1996) and high (Laing, 1988; Garrington et al., 1988) luminosity sources: the implication is that the brighter jet is on the near side of the source. It is likely that the key difference between radio sources in the two morphological classes defined by Fanaroff & Riley (1974) are that relativistic flow persists to the extremities of FRII sources, but that FRI jets decelerate smoothly on intermediate scales (Laing, 1993; Bicknell, 1995). On kiloparsec scales, we can identify structures which we propose should be called fast jets. These are well-collimated and generally one-sided (in the sense that the jet/counterjet ratio >4:1). They also have longitudinal apparent magnetic field (B||). They occur both in FRII sources, and at the bases of FRI jets (Bridle & Perley, 1984). We suggest that they are relativistic flows, and that this fact is crucial to an understanding of their evolution. A framework for the understanding of the variety of extended structures in extragalactic radio sources in this context is illustrated in Figure 1, which is an improved version of the diagram presented by Laing (1993). A fast jet appears to be able to: decelerate and recollimate to form a slow jet with β << 1 (therefore two-sided unless external effects dominate); disrupt, as in wide-angle tail sources, or hit the external medium and form a hot-spot. Slow jets are probably formed only when a decelerating fast jet can be recollimated by the external pressure gradient (Phinney, 1983; Bowman, Leahy & Komissarov, 1995). This may not be possible for more powerful sources in flatter pressure gradients and it is likely that wide-angle tail sources are formed when a fast jet decelerates rapidly but cannot recollimate. Deceleration by entrainment is efficient when the jet is transonic, and Bicknell (1994) showed that this corresponds to β ≈0.3 − 0.7 for a relativistic jet. If the jet does not slow down sufficiently (e.g. by mass loading; Komissarov 1994), then the flow will remain supersonic until it impacts on the external medium, and an FRII source will result. The radio morphology is therefore determined by a combination of initial jet speed and thrust and the effects of the environment, via the rate of stellar mass loss and the pressure gradient. On the largest scales, a bridge(backflow) or tail (outflow) will be formed. If the jet remains supersonic as far as the end of the lobe (as in an FRII source), then it is inevitable that a backflow (bridge) will be generated. As emphasised by Parma, de Ruiter & Fanti (1996), the majority of FRI sources also show bridges: the residual momentum of the jets, their density contrast with the external medium and the external pressure gradient are all likely to be important in determining their large-scale morphologies.
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28

Bertoluzza, Silvia y Silvia Falletta. "Building Wavelets on ]0,1[ at Large Scales". Journal of Fourier Analysis and Applications 9, n.º 3 (1 de mayo de 2003): 261–88. http://dx.doi.org/10.1007/s00041-003-0014-0.

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29

Tavecchio, F. "Extragalactic jets on subpc and large scales". Astrophysics and Space Science 311, n.º 1-3 (26 de julio de 2007): 247–55. http://dx.doi.org/10.1007/s10509-007-9546-0.

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30

Liu, Chao y Todd A. Oliynyk. "Cosmological Newtonian Limits on Large Spacetime Scales". Communications in Mathematical Physics 364, n.º 3 (26 de julio de 2018): 1195–304. http://dx.doi.org/10.1007/s00220-018-3214-9.

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31

Zhang, Xiang. "Metamaterials for perpetual cooling at large scales". Science 355, n.º 6329 (9 de marzo de 2017): 1023–24. http://dx.doi.org/10.1126/science.aam8566.

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32

Wong, L. T. y C. L. Yau. "Sanitary Accommodation Scales for Large Shopping Malls". Architectural Science Review 47, n.º 4 (diciembre de 2004): 355–64. http://dx.doi.org/10.1080/00038628.2000.9697545.

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33

Brechet, Sylvain D. y Jean-Philippe Ansermet. "Heat-driven spin currents on large scales". physica status solidi (RRL) - Rapid Research Letters 5, n.º 12 (20 de junio de 2011): 423–25. http://dx.doi.org/10.1002/pssr.201105180.

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34

YAMAZAKI, Shojiro y Sigeyasu KOBAYASHI. "Protein separation and purification. Small and large scales." Journal of Synthetic Organic Chemistry, Japan 46, n.º 11 (1988): 1014–24. http://dx.doi.org/10.5059/yukigoseikyokaishi.46.1014.

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35

Zhang, Heling, Yonglu Ren y Guangyong Zhang. "Super Large Scales Reflection Hologram on Dichromated Gelatin." Journal of Photopolymer Science and Technology 9, n.º 1 (1996): 131–36. http://dx.doi.org/10.2494/photopolymer.9.131.

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36

Duniya, Didam G. A., Teboho Moloi, Chris Clarkson, Julien Larena, Roy Maartens, Bishop Mongwane y Amanda Weltman. "Probing beyond-Horndeski gravity on ultra-large scales". Journal of Cosmology and Astroparticle Physics 2020, n.º 01 (14 de enero de 2020): 033. http://dx.doi.org/10.1088/1475-7516/2020/01/033.

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37

Sanders, Wendy, Carolyn Judge, Eric Winkel, Steven Ceccio, David Dowling y Marc Perlin. "Turbulent boundary layer pressure fluctuations at large scales". Journal of the Acoustical Society of America 111, n.º 5 (2002): 2425. http://dx.doi.org/10.1121/1.4778293.

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38

Amendola, Luca, Ana Marta Pinho y Santiago Casas. "Model-independent measures of gravity at large scales". International Journal of Modern Physics A 33, n.º 31 (10 de noviembre de 2018): 1844022. http://dx.doi.org/10.1142/s0217751x18440220.

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This paper aims at showing how to probe gravity in a model independent way using observable quantities which can be measured with the minimum number of assumptions. We find that it is possible to estimate the gravitational slip, defined as the ratio of the gravitational potentials, independently of assumptions concerning initial conditions, bias, and other cosmological parameters. Analyzing all the data currently available, we find [Formula: see text] in the redshift range [Formula: see text]. Future datasets, like those provided by the Euclid satellite, will tighten this constraint by more than an order of magnitude.
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39

Pápai, Péter y Ravi K. Sheth. "On the anisotropic density distribution on large scales". Monthly Notices of the Royal Astronomical Society 429, n.º 2 (7 de diciembre de 2012): 1133–38. http://dx.doi.org/10.1093/mnras/sts399.

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40

Valsesia, Diego, Giulio Coluccia, Tiziano Bianchi y Enrico Magli. "ToothPic: Camera-Based Image Retrieval on Large Scales". IEEE MultiMedia 26, n.º 2 (1 de abril de 2019): 33–43. http://dx.doi.org/10.1109/mmul.2018.2873845.

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41

Damschen, E. I. "Corridors Increase Plant Species Richness at Large Scales". Science 313, n.º 5791 (1 de septiembre de 2006): 1284–86. http://dx.doi.org/10.1126/science.1130098.

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42

Antoniadis, Ignatios, Pawel O. Mazur y Emil Mottola. "Fractal geometry of quantum spacetime at large scales". Physics Letters B 444, n.º 3-4 (diciembre de 1998): 284–92. http://dx.doi.org/10.1016/s0370-2693(98)01375-6.

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43

Luo, Shan y Ethan T. Vishniac. "Can Extra Power Explain Periodicity on Large Scales?" Astrophysical Journal 415 (octubre de 1993): 450. http://dx.doi.org/10.1086/173177.

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44

Delsink, Audrey, Abi T. Vanak, Sam Ferreira y Rob Slotow. "Biologically relevant scales in large mammal management policies". Biological Conservation 167 (noviembre de 2013): 116–26. http://dx.doi.org/10.1016/j.biocon.2013.07.035.

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45

Del Aguila, F. y G. D. Coughlan. "Very large intermediate scales in three-generation models". Physics Letters B 215, n.º 1 (diciembre de 1988): 93–98. http://dx.doi.org/10.1016/0370-2693(88)91077-5.

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46

Shen, Hubert H. "Non-solenoidal large scales in mean-incompressible turbulence". Physica D: Nonlinear Phenomena 37, n.º 1-3 (julio de 1989): 192–99. http://dx.doi.org/10.1016/0167-2789(89)90128-0.

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47

Laurance, William F. "Do edge effects occur over large spatial scales?" Trends in Ecology & Evolution 15, n.º 4 (abril de 2000): 134–35. http://dx.doi.org/10.1016/s0169-5347(00)01838-3.

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48

Liske, J. "A hypothetical cosmological test: Trigonometry on large scales". Astronomy & Astrophysics 398, n.º 2 (21 de enero de 2003): 429–33. http://dx.doi.org/10.1051/0004-6361:20021494.

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49

Valiela, Ivan. "Suitably Large Scales for Study of Marine Ecosystems". Ecology 71, n.º 5 (octubre de 1990): 2031. http://dx.doi.org/10.2307/1937616.

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50

Lu, Zhiping, Ming Li y Wei Zhao. "Normality of Ethernet Traffic at Large Time Scales". Mathematical Problems in Engineering 2013 (2013): 1–7. http://dx.doi.org/10.1155/2013/471963.

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We contribute the quantitative descriptions of the large time scales for the Ethernet traffic to be Gaussian. We focus on the normality property of the accumulated traffic data under different time scales. The investigation is carried out graphically by the quantile-quantile (QQ) plots and numerically by statistical tests. The present results indicate that the larger the time scale, the more normal the Ethernet traffic.
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