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Artículos de revistas sobre el tema "Hyperscaling"

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Autor: Grafiati
Publicado: 14 de marzo de 2023

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1

Sadeghi, J., B. Pourhassan y A. Asadi. "Application of hyperscaling violation in QCD". Canadian Journal of Physics 92, n.º 4 (abril de 2014): 280–83. http://dx.doi.org/10.1139/cjp-2013-0257.

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In this paper we use a metric with hyperscaling violation and study form factor of QCD. We find the effects of hyperscaling violation on the form factor and obtain the dependence of the form factor on momentum numerically. Here by using the hyperscaling violation metric we do not need hard-wall and soft-wall models.
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2

Campbell, Ian A. y Per H. Lundow. "Hyperscaling Violation in Ising Spin Glasses". Entropy 21, n.º 10 (8 de octubre de 2019): 978. http://dx.doi.org/10.3390/e21100978.

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In addition to the standard scaling rules relating critical exponents at second order transitions, hyperscaling rules involve the dimension of the model. It is well known that in canonical Ising models hyperscaling rules are modified above the upper critical dimension. It was shown by M. Schwartz in 1991 that hyperscaling can also break down in Ising systems with quenched random interactions; Random Field Ising models, which are in this class, have been intensively studied. Here, numerical Ising Spin Glass data relating the scaling of the normalized Binder cumulant to that of the reduced correlation length are presented for dimensions 3, 4, 5, and 7. Hyperscaling is clearly violated in dimensions 3 and 4, as well as above the upper critical dimension D = 6 . Estimates are obtained for the “violation of hyperscaling exponent” values in the various models.
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3

BAI, NAN, YI-HONG GAO, BU-GUAN QI y XIAO-BAO XU. "QUASINORMAL FREQUENCIES OF BLACK BRANES WITH HYPERSCALING VIOLATION". Modern Physics Letters A 28, n.º 37 (20 de noviembre de 2013): 1350145. http://dx.doi.org/10.1142/s0217732313501459.

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We investigated quasinormal frequencies (QNFs) in black brane with hyperscaling violating by using the continued fractions method. We calculate QNF of massless scalar field and electromagnetic field both with zero spatial momentum, find that QNFs have negative imaginary frequency suggesting black brane with hyperscaling violation is stable under those perturbations.
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4

Borvayeh, Z., M. Reza Tanhayi y S. Rafibakhsh. "Holographic complexity of subregions in the hyperscaling violating theories". Modern Physics Letters A 35, n.º 23 (17 de junio de 2020): 2050191. http://dx.doi.org/10.1142/s0217732320501916.

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In this paper, we use the complexity equals action proposal and investigate holographic complexity for hyperscaling violating theories on different subregions of space-time enclosed by the null boundaries. We are interested in computing the onshell action for certain subregions of the intersection between the Wheeler DeWitt patch and the past, as well as, the future interior of a two-sided black brane. More precisely, we extend the results of Ref. 1 in parts, to hyperscaling violating geometries and to find the finite onshell action, we define the proper counter terms. We show that in computing the rate of complexification the dynamical exponent plays a crucial rule, but, at the late time, rate of the complexity growth is independent of the hyperscaling parameters.
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5

Papadimitriou, Ioannis. "Hyperscaling violating Lifshitz holography". Nuclear and Particle Physics Proceedings 273-275 (abril de 2016): 1487–93. http://dx.doi.org/10.1016/j.nuclphysbps.2015.09.240.

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6

Cieplak, Marek y Andrzej Majhofer. "Spectral dimensionality and hyperscaling". Physical Review B 34, n.º 7 (1 de octubre de 1986): 4892–93. http://dx.doi.org/10.1103/physrevb.34.4892.

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7

Duplantier, Bertrand. "Hyperscaling for polymer rings". Nuclear Physics B 430, n.º 3 (noviembre de 1994): 489–533. http://dx.doi.org/10.1016/0550-3213(94)90157-0.

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8

Tasaki, Hal. "Hyperscaling inequalities for percolation". Communications in Mathematical Physics 113, n.º 1 (marzo de 1987): 49–65. http://dx.doi.org/10.1007/bf01221396.

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9

Sadeghi, J. y A. Asadi. "Hydrodynamics in a black brane with hyperscaling violation metric background". Canadian Journal of Physics 92, n.º 12 (diciembre de 2014): 1570–72. http://dx.doi.org/10.1139/cjp-2014-0067.

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In this paper we consider a metric with hyperscaling violation on a black brane background. In this background we calculate the ratio of shear viscosity to entropy density with hydrodynamics information. The calculation of this quantity leads us to a constraint on θ as 3 ≤ θ < 4, and θ ≤ 0. In that case we show that the quantity η/s is not dependent on hyperscaling violation parameter θ. Our results about ratio of shear viscosity to entropy density from the QCD point of view agree with other works in the literature as 1/4π.
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10

Binder, K., M. Nauenberg, V. Privman y A. P. Young. "Finite-size tests of hyperscaling". Physical Review B 31, n.º 3 (1 de febrero de 1985): 1498–502. http://dx.doi.org/10.1103/physrevb.31.1498.

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11

Zhang, Zi-qiang, Chong Ma, De-fu Hou y Gang Chen. "Heavy Quark Potential with Hyperscaling Violation". Advances in High Energy Physics 2017 (2017): 1–7. http://dx.doi.org/10.1155/2017/8276534.

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We investigate the behavior of the heavy quark potential in the backgrounds with hyperscaling violation. The metrics are covariant under a generalized Lifshitz scaling symmetry with the dynamical Lifshitz parameter z and hyperscaling violation exponent θ. We calculate the potential for a certain range of z and θ and discuss how it changes in the presence of the two parameters. Moreover, we add a constant electric field to the backgrounds and study its effects on the potential. It is shown that the heavy quark potential depends on the nonrelativistic parameters. Also, the presence of the constant electric field tends to increase the potential.
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12

Xu, Xiao-Bao, Gu-Qiang Li y Jie-Xiong Mo. "Entanglement temperature for black branes with hyperscaling violation". Modern Physics Letters A 31, n.º 12 (19 de abril de 2016): 1650072. http://dx.doi.org/10.1142/s0217732316500723.

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Entanglement temperature is an interesting quantity which relates the increased amount of entanglement entropy to that of energy for a weakly excited state in the first-law of entanglement entropy, it is proportional to the inverse of the size of entanglement subsystem and only depends on the shape of the entanglement region. We find the explicit formula of entanglement temperature for the general hyperscaling violation backgrounds with a strip-subsystem. We then investigate the entanglement temperature for a round ball-subsystem, we check that the entanglement temperature has a universal form when the hyperscaling violation exponent is near zero.
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13

Nauenberg, M. "Hyperscaling Relations for Finite Size Systems". Physica Scripta T9 (1 de enero de 1985): 151–52. http://dx.doi.org/10.1088/0031-8949/1985/t9/025.

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14

Berche, B., R. Kenna y J. C. Walter. "Hyperscaling above the upper critical dimension". Nuclear Physics B 865, n.º 1 (diciembre de 2012): 115–32. http://dx.doi.org/10.1016/j.nuclphysb.2012.07.021.

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15

Elander, Daniel, Robert Lawrance y Maurizio Piai. "Hyperscaling violation and electroweak symmetry breaking". Nuclear Physics B 897 (agosto de 2015): 583–611. http://dx.doi.org/10.1016/j.nuclphysb.2015.06.004.

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16

Essam, J. W. "Directed compact percolation: cluster size and hyperscaling". Journal of Physics A: Mathematical and General 22, n.º 22 (21 de noviembre de 1989): 4927–37. http://dx.doi.org/10.1088/0305-4470/22/22/020.

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17

Lei, Yang y Simon F. Ross. "Extending the non-singular hyperscaling violating spacetimes". Classical and Quantum Gravity 31, n.º 3 (23 de diciembre de 2013): 035007. http://dx.doi.org/10.1088/0264-9381/31/3/035007.

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18

Dickman, Ronald y Alex Yu Tretyakov. "Hyperscaling in the Domany-Kinzel cellular automaton". Physical Review E 52, n.º 3 (1 de septiembre de 1995): 3218–20. http://dx.doi.org/10.1103/physreve.52.3218.

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19

Cates, M. E. "Excluded volume and hyperscaling in polymeric systems". Journal de Physique Lettres 46, n.º 17 (1985): 837–43. http://dx.doi.org/10.1051/jphyslet:019850046017083700.

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20

Guttmann, A. J. "Validity of hyperscaling for thed=3Ising model". Physical Review B 33, n.º 7 (1 de abril de 1986): 5089–92. http://dx.doi.org/10.1103/physrevb.33.5089.

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21

Wu, Jian-Pin y Xiao-Mei Kuang. "Scalar boundary conditions in hyperscaling violating geometry". Physics Letters B 753 (febrero de 2016): 34–40. http://dx.doi.org/10.1016/j.physletb.2015.11.046.

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22

Kolekar, Kedar S., Debangshu Mukherjee y K. Narayan. "Hyperscaling violation and the shear diffusion constant". Physics Letters B 760 (septiembre de 2016): 86–93. http://dx.doi.org/10.1016/j.physletb.2016.06.046.

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23

Li, Li. "Hyperscaling violating solutions in generalised EMD theory". Physics Letters B 767 (abril de 2017): 278–84. http://dx.doi.org/10.1016/j.physletb.2017.02.004.

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24

Sadeghi, J. y F. Pourasadollah. "Langevin Diffusion in Holographic Backgrounds with Hyperscaling Violation". Advances in High Energy Physics 2014 (2014): 1–17. http://dx.doi.org/10.1155/2014/670598.

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We consider a relativistic heavy quark which moves in the quark-gluon plasmas. By using the holographic methods, we analyze the Langevin diffusion process of this relativistic heavy quark. This heavy quark is described by a trailing string attached to a flavor brane and moving at constant velocity. The fluctuations of this string are related to the thermal correlators and the correlation functions are precisely the kinds of objects that we compute in the gravity dual picture. We obtain the action of the trailing string in hyperscaling violation backgrounds and we then find the equations of motion. These equations lead us to constructing the Langevin correlator which helps us to obtain the Langevin constants. Using the Langevin correlators we derive the spectral densities and simple analytic expressions in the small- and large-frequency limits. We examine our works for planar andR-charged black holes with hyperscaling violation and find new constraints onθin the presence of velocityv.
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25

Zhang, Shuhang, Zixu Zhao, Qiyuan Pan y Jiliang Jing. "Excited states of holographic superconductors with hyperscaling violation". Nuclear Physics B 976 (marzo de 2022): 115701. http://dx.doi.org/10.1016/j.nuclphysb.2022.115701.

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26

Lebeau, C., J. Rosenblatt, A. Raboutou y P. Peyral. "Current-Voltage Hyperscaling in Arrays of Josephson Junctions". Europhysics Letters (EPL) 1, n.º 6 (15 de marzo de 1986): 313–17. http://dx.doi.org/10.1209/0295-5075/1/6/007.

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27

Sadeghi, J., B. Pourhassan y F. Pourasadollah. "Thermodynamics of Schrödinger black holes with hyperscaling violation". Physics Letters B 720, n.º 1-3 (marzo de 2013): 244–49. http://dx.doi.org/10.1016/j.physletb.2013.02.011.

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28

Schwartz, M. "Breakdown of Hyperscaling in Random Systems—An Inequality". Europhysics Letters (EPL) 15, n.º 7 (1 de agosto de 1991): 777–81. http://dx.doi.org/10.1209/0295-5075/15/7/014.

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29

David, François, Bertrand Duplantier y Emmanuel Guitter. "Renormalization and hyperscaling for self-avoiding manifold models". Physical Review Letters 72, n.º 3 (17 de enero de 1994): 311–15. http://dx.doi.org/10.1103/physrevlett.72.311.

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30

Kiritsis, Elias y Yoshinori Matsuo. "Charge-hyperscaling violating Lifshitz hydrodynamics from black-holes". Journal of High Energy Physics 2015, n.º 12 (diciembre de 2015): 1–51. http://dx.doi.org/10.1007/jhep12(2015)076.

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31

Kuang, Xiao-Mei y Jian-Pin Wu. "Analytical shear viscosity in hyperscaling violating black brane". Physics Letters B 773 (octubre de 2017): 422–27. http://dx.doi.org/10.1016/j.physletb.2017.08.060.

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32

Borgs, C., J. T. Chayes, H. Kesten y J. Spencer. "Uniform boundedness of critical crossing probabilities implies hyperscaling". Random Structures and Algorithms 15, n.º 3-4 (octubre de 1999): 368–413. http://dx.doi.org/10.1002/(sici)1098-2418(199910/12)15:3/4<368::aid-rsa9>3.0.co;2-b.

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33

Ganjali, Mohammad Ali y Vahid Amirkhani. "Geometries With Hyperscaling-violating Lifshitz in Cubic Gravity". Modern Research Physics 4, n.º 2 (1 de febrero de 2020): 83–91. http://dx.doi.org/10.52547/jmrph.4.2.83.

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34

Pedraza, Juan F., Watse Sybesma y Manus R. Visser. "Hyperscaling violating black holes with spherical and hyperbolic horizons". Classical and Quantum Gravity 36, n.º 5 (7 de febrero de 2019): 054002. http://dx.doi.org/10.1088/1361-6382/ab0094.

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35

Wu, Jianda, Lijun Zhu y Qimiao Si. "Entropy accumulation near quantum critical points: effects beyond hyperscaling". Journal of Physics: Conference Series 273 (1 de enero de 2011): 012019. http://dx.doi.org/10.1088/1742-6596/273/1/012019.

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36

Lundow, P. H. y I. A. Campbell. "Hyperscaling breakdown and Ising spin glasses: The Binder cumulant". Physica A: Statistical Mechanics and its Applications 492 (febrero de 2018): 1838–52. http://dx.doi.org/10.1016/j.physa.2017.11.101.

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37

Mukhopadhyay, Subir y Chandrima Paul. "Hyperscaling violating geometry with magnetic field and DC conductivity". Nuclear Physics B 938 (enero de 2019): 571–93. http://dx.doi.org/10.1016/j.nuclphysb.2018.11.022.

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38

Berker, A. Nihat y Susan R. McKay. "Modified hyperscaling relation for phase transitions under random fields". Physical Review B 33, n.º 7 (1 de abril de 1986): 4712–15. http://dx.doi.org/10.1103/physrevb.33.4712.

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39

Cheung, Ho-Fai. "Hyperscaling, dimensional reduction, and the random-field Ising model". Physical Review B 33, n.º 9 (1 de mayo de 1986): 6191–95. http://dx.doi.org/10.1103/physrevb.33.6191.

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40

Bhatnagar, Neha. "Some Applications of Holography to Study Strongly Correlated Systems". EPJ Web of Conferences 177 (2018): 09002. http://dx.doi.org/10.1051/epjconf/201817709002.

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In this work, we study the transport coefficients of strongly coupled condensed matter systems using gauge/gravity duality (holography). We consider examples from the real world and evaluate the conductivities from their gravity duals. Adopting the bottom-up approach of holography, we obtain the frequency response of the conductivity for (1+1)-dimensional systems. We also evaluate the DC conductivities for non-relativistic condensed matter systems with hyperscaling violating geometry.
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41

Bhatnagar, Neha y Sanjay Siwach. "DC conductivity with external magnetic field in hyperscaling violating geometry". International Journal of Modern Physics A 33, n.º 04 (10 de febrero de 2018): 1850028. http://dx.doi.org/10.1142/s0217751x18500288.

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We investigate the holographic DC conductivity of (2[Formula: see text]+[Formula: see text]1)-dimensional systems while considering hyperscaling violating geometry in bulk. We consider Einstein–Maxwell-dilaton system with two gauge fields and Liouville-type potential for dilaton. We also consider axionic fields in bulk to introduce momentum relaxation in the system. We apply an external magnetic field to study the response of the system and obtain analytic expressions for DC conductivity, Hall angle and (thermo)electric conductivity.
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42

Kioumarsipour, M. y J. Sadeghi. "Effects of the hyperscaling violation and dynamical exponents on the imaginary potential and entropic force of heavy quarkonium via holography". European Physical Journal C 81, n.º 8 (agosto de 2021). http://dx.doi.org/10.1140/epjc/s10052-021-09537-3.

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AbstractThe imaginary potential and entropic force are two important different mechanisms to characterize the dissociation of heavy quarkonia. In this paper, we calculate these two quantities in strongly coupled theories with anisotropic Lifshitz scaling and hyperscaling violation exponent using holographic methods. We study how the results are affected by the hyperscaling violation parameter $$ \theta $$ θ and the dynamical exponent z at finite temperature and chemical potential. Also, we investigate the effect of the chemical potential on these quantities. As a result, we find that both mechanisms show the same results: the thermal width and the dissociation length decrease as the dynamical exponent and chemical potential increase or as the hyperscaling violating parameter decreases.
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43

Perlmutter, Eric. "Hyperscaling violation from supergravity". Journal of High Energy Physics 2012, n.º 6 (junio de 2012). http://dx.doi.org/10.1007/jhep06(2012)165.

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44

Copsey, Keith y Robert Mann. "Singularities in hyperscaling violating spacetimes". Journal of High Energy Physics 2013, n.º 4 (abril de 2013). http://dx.doi.org/10.1007/jhep04(2013)079.

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45

Fan, ZhongYing. "Holographic superconductors with hyperscaling violation". Journal of High Energy Physics 2013, n.º 9 (septiembre de 2013). http://dx.doi.org/10.1007/jhep09(2013)048.

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46

Alishahiha, Mohsen y Hossein Yavartanoo. "On holography with hyperscaling violation". Journal of High Energy Physics 2012, n.º 11 (noviembre de 2012). http://dx.doi.org/10.1007/jhep11(2012)034.

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47

Karch, Andreas. "Conductivities for hyperscaling violating geometries". Journal of High Energy Physics 2014, n.º 6 (junio de 2014). http://dx.doi.org/10.1007/jhep06(2014)140.

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48

Sadeghi, J. y S. Heshmatian. "Jet quenching parameter with hyperscaling violation". European Physical Journal C 74, n.º 9 (septiembre de 2014). http://dx.doi.org/10.1140/epjc/s10052-014-3032-y.

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49

Pan, Qiyuan y Shao-Jun Zhang. "Revisiting holographic superconductors with hyperscaling violation". European Physical Journal C 76, n.º 3 (marzo de 2016). http://dx.doi.org/10.1140/epjc/s10052-016-3980-5.

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50

Ghanbarian, N. y M. Reza Tanhayi. "‘Mutual complexity’ in hyperscaling violating background". International Journal of Modern Physics D, 29 de diciembre de 2020, 2150013. http://dx.doi.org/10.1142/s0218271821500139.

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In this paper, we use complexity equals action proposal and investigate the recently introduced ‘mutual complexity’ [M. Alishahiha, K. Babaei Velni and M. R. Mohammadi Mozaffar, Phys. Rev. D 99 (2019) 126016, https://doi.org/10.1103/PhysRevD.99.126016 , arXiv:1809.06031 [hep-th]], in the hyperscaling violating backgrounds. For two subregions in order to define holographic complexity, we find the finite bulk action inside the subregions which is followed by introducing the proper counter terms. We show that for two subregions, the mutual complexity is subadditive. Moreover, for three subregions, we define holographic ‘tripartite complexity’ and show that this new quantity is superadditive.
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