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Optical and Quantum Electronics

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01.12.2023

Optical quantum modeling for Heisenberg ferromagnetic normalized phase

verfasst von: Zeliha Körpinar, Talat Körpinar, Erdal Korkmaz

Erschienen in: Optical and Quantum Electronics | Ausgabe 13/2023

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Abstract

In this manuscript, we focus recursional and normalized operator for timelike \(\tau \)-magnetic particles in Heisenberg deSitter Space \({\mathbb {H}}_{{\mathbb {S}}_{1}^{2}}\). Thus, we obtain Heisenberg normalized optical \(\nu \)-density for\(\mathcal {L}(\tau ),\) \( \mathcal {L}(\nu ),\) \(\mathcal {L}(\beta )\) with recursional operator. Also, we characterize Heisenberg normalized \(\nu \)-ferromagnetic total \( \mathcal {L}(\tau )\) phase. Moreover, we characterize \(\nu \)-photonic \( \mathcal {L}(\tau ),\) \(\mathcal {L}(\nu ),\) \(\mathcal {L}(\beta )\) crystal is presented by optical Heisenberg normalized inextensible shape in Heisenberg deSitter Space \({\mathbb {H}}_{{\mathbb {S}}_{1}^{2}}\).

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Abdullah, F.A., Islam, M.T., Gómez-Aguilar, J.F., Akbar, M.A.: Impressive and innovative soliton shapes for nonlinear Konno–Oono system relating to electromagnetic field. Opt. Quant. Electron. 55(1), 69 (2023)

Arbind, A., Reddy, J.N., Srinivasa, A.R.: A nonlinear 1-D finite element analysis of rods/tubes made of incompressible neo-Hookean materials using higher-order theory. Int. J. Solids Struct. 166, 1–21 (2019)

Balakrishnan, R., Bishop, R.A., Dandoloff, R.: Geometric phase in the classical continuous antiferromagnetic Heisenberg spin chain. Phys. Rev. Lett. 64(18), 2107 (1990)ADSMathSciNetMATH

Cao, F.: Geometric Curve Evolution and Image Processing. Springer, Berlin (2003)MATH

Carmo, M.P.: Differential Geometry of Curves and Surfaces. Prentice-Hall, New York (1976)MATH

Carollo, A., Valenti, D., Spagnolo, B.: Geometry of quantum phase transitions. Phys. Rep. 838, 1–72 (2020)MathSciNetMATH

Cheng, S., Xia, T., Liu, M., Xu, S., Gao, S., Zhang, G., Tao, S.: Optical manipulation of microparticles with the momentum flux transverse to the optical axis. Opt. Laser Technol. 113, 266–272 (2019)ADS

Cohen, E., Larocque, H., Bouchard, F., Nejadsattari, F., Gefen, Y., Karimi, E.: Geometric phase from Aharonov–Bohm to Pancharatnam–Berry and beyond. Nat. Rev. Phys. 1(7), 437–449 (2019)

Conte, R., Musette, M.: Link between solitary waves and projective Riccati equations. J. Phys. A: Math. Gen. 25(21), 5609 (1992)ADSMathSciNetMATH

Gao, W., Ren, L.L., Liu, R.Q., Han, Y.C.: The role of geometric phase in dissociation dynamics of the molecule. Int. J. Quantum Chem. 121(22), e26787 (2021)

Guerci, D., Simon, P., Mora, C.: Superradiant phase transition in electronic systems and emergent topological phases. Phys. Rev. Lett. 125(25), 257604 (2020)ADSMathSciNet

Hirota, R.: Direct methods in soliton theory. In: Solitons, pp. 157–176. Springer, Berlin (1980)

Islam, M.T., Abdullah, F.A., Gómez-Aguilar, J.F.: A variety of solitons and other wave solutions of a nonlinear Schrödinger model relating to ultra-short pulses in optical fibers. Opt. Quant. Electron. 54(12), 866 (2022a)

Islam, M.T., Akter, M.A., Gómez-Aguilar, J.F., Akbar, M.A., Torres-Jiménez, J.: A novel study of the nonlinear Kadomtsev–Petviashvili-modified equal width equation describing the behavior of solitons. Opt. Quant. Electron. 54(11), 725 (2022b)

Islam, M.T., Akter, M.A., Gomez-Aguilar, J.F., Akbar, M.A., P érez-Careta, E.: Innovative and diverse soliton solutions of the dual core optical fiber nonlinear models via two competent techniques. Nonlinear Opt. Phys. Mater. 32, 2350037 (2023)

Korpinar, Z.: Some analytical solutions by mapping methods for non-linear conformable time-fractional PHI-4 equation. Therm. Sci. 23(6), 1815 (2019)

Körpinar, T.: A new optical Heisenberg ferromagnetic model for optical directional velocity magnetic flows with geometric phase. Indian J. Phys. 94(9), 1409–1421 (2020a)ADS

Körpinar, T.: Optical directional binormal magnetic flows with geometric phase: Heisenberg ferromagnetic model. Opt. - Int. J. Light Electron Opt. 219, 165134 (2020b)

Korpinar, T., Demirkol, R.C.: Frictional magnetic curves in 3D Riemannian manifolds. Int. J. Geom. Methods Mod. Phys. 15(02), 1850020 (2018a)MathSciNetMATH

Korpinar, T., Demirkol, R.C.: Gravitational magnetic curves on 3D Riemannian manifolds. Int. J. Geom. Methods Mod. Phys. 15(11), 1850184 (2018b)MathSciNetMATH

Körpinar, T., Körpinar, Z.: Timelike spherical magnetic SN flux flows with Heisenberg spherical ferromagnetic spin with some solutions. Optik 242, 166745 (2021a)ADS

Körpinar, T., Körpinar, Z.: A new approach for fractional spherical magnetic flux flows with some fractional solutions. Optik 240, 166906 (2021b)ADS

Körpinar, T., Körpinar, Z.: Optical electromagnetic flux fibers with optical antiferromagnetic model. Optik 251, 168301 (2022a)ADS

Körpinar, T., Körpinar, Z.: New optical flux for optical antiferromagnetic modified drift density. Opt. Quant. Electron. 54(12), 829 (2022b)

Körpinar, T., Körpinar, Z.: Optical normalized microscale for optical total recursion electromagnetic flux on Heisenberg space SH 2. Opt. Quant. Electron. 54(12), 777 (2022c)

Körpinar, T., Körpinar, Z.: Antiferromagnetic viscosity model for electromotive microscale with second type nonlinear heat frame. Int. J. Geom. Methods Mod. Phys. 2350163 (2023a)

Körpinar, T., Körpinar, Z.: New optical geometric recursional electromagnetic ferromagnetic microscale. Int. J. Mod. Phys. B 2450092 (2023b)

Körpinar, Z., Körpinar, T.: New optical recursional spherical ferromagnetic flux for optical sonic microscale. J. Nonlinear Opt. Phys. Mater. 2350051 (2023c)

Körpinar, T., Körpinar, Z.: Optical visco microfluidic optimistic hybrid optical electromotive microscale. Int. J. Mod. Phys. B 2450159 (2023d)

Körpinar, T., Körpinar, Z.: Antiferromagnetic Schr ödinger electromotive microscale in Minkowski space. Opt. Quant. Electron. 55(8), 681 (2023e)

Körpinar, T., Körpinar, Z.: Antiferromagnetic complex electromotive microscale with first type Schrödinger frame. Opt. Quant. Electron. 55(6), 505 (2023f)

Körpınar, T., Körpınar, Z.: Optical phase of recursional hybrid visco ferromagnetic electromagnetic microscale. Phys. Lett. A 462, 128651 (2023g)MathSciNetMATH

Körpinar, T., Körpinar, Z.: New modeling for Heisenberg velocity microfluidic of optical ferromagnetic mKdV flux. Opt. Quant. Electron. 55(6), 523 (2023h)MATH

Korpinar, T., Demirkol, R.C., Körpınar, Z.: Soliton propagation of electromagnetic field vectors of polarized light ray traveling in a coiled optical fiber in Minkowski space with Bishop equations. Eur. Phys. J. D 73(9), 1–11 (2019)MATH

Körpinar, T., Demirkol, R.C., Körpinar, Z., Asil, V.: Maxwellian evolution equations along the uniform optical fiber. Optik 217, 164561 (2020a)ADS

Körpınar, T., Demirkol, R.C., Körpınar, Z.: Elastic magnetic curves of ferromagnetic and superparamagnetic models. Math. Methods Appl. Sci. 44(7), 5797–5820 (2020b)MathSciNetMATH

Körpınar, T., Demirkol, R.C., Körpınar, Z.: New analytical solutions for the inextensible Heisenberg ferromagnetic flow and solitonic magnetic flux surfaces in the binormal direction. Phys. Scr. 96(8), 085219 (2021a)ADS

Korpinar, T., Demirkol, R.C., Khalil, E.M., Korpinar, Z., Baleanu, M.D.: In ç, Quasi binormal Schrodinger evolution of wave polarizatıon field of light wıth repulsive type. Phys. Scr. 96(4), 045104 (2021b)ADS

Körpınar, T., Demirkol, R.C., Körpınar, Z.: Polarization of propagated light with optical solitons along the fiber in de-sitter space \( S_{1}^{2}\). Optik 226, 165872 (2021c)ADS

Körpinar, T., Demirkol, R.C., Körpinar, Z.: A fractionally magnetized flow of force fields and Fermi–Walker conformable derivative on the unit sphere. Waves Random Complex Media, 1–19 (2022a)

Körpinar, T., Körpinar, Z., Asil, V.: New optical Heisenberg model with timelike optical de Sitter flux density. Optik 265, 169438 (2022b)ADS

Körpinar, T., Ünlütürk, Y., Körpinar, Z.: A novel approach to the motion equations of null Cartan curves via the compatible Hasimoto map. Optik 290, 171220 (2023a)ADS

Körpinar, T., Demirkol, R.C., Körpinar, Z.: On the new conformable optical ferromagnetic and antiferromagnetic magnetically driven waves. Opt. Quant. Electron. 55(6), 496 (2023b)

Korpinar, Z., Inc, M., Korpinar, T.: Ferromagnetic recursion for geometric phase timelike SN-magnetic fibers. Opt. Quant. Electron. 55(4), 382 (2023c)

Körpinar, T., Körpinar, Z., Asil, V.: Optical electromotive microscale with first type Schrödinger frame. Optik 276, 170629 (2023d)ADS

Lakshmanan, M., Rajasekar, S.: Nonlinear Dynamics: Integrability, Chaos and Patterns. Springer, New York (2003)MATH

Li, L., Pang, L., Wang, R., Zhang, X., Hui, Z., Han, D., Liu, W.: Ternary transition metal dichalcogenides for high power vector dissipative soliton ultrafast fiber laser. Laser Photonics Rev. 16(2), 2100255 (2022)ADS

Liu, S., Fu, Z., Liu, S., Zhao, Q.: Jacobi elliptic function expansion method and periodic wave solutions of nonlinear wave equations. Phys. Lett. A 289, 69 (2001)ADSMathSciNetMATH

Millen, J., Stickler, B.A.: Quantum experiments with microscale particles. Contemp. Phys. 61(3), 155–168 (2020)ADS

Othman, M.I.A., Mahdy, A.M.S.: Numerical studies for solving a free convection boundary-layer flow over a vertical plate. Mech. Mech. Eng. 22(1), 41–48 (2018)

Park, H.M., Kwon, U., Joo, K.N.: Vision chromatic confocal sensor based on a geometrical phase lens. Appl. Opt. 60(10), 2898–2901 (2021)ADS

Popczyk, A., Aamoum, A., Migalska-Zalas, A., Płóciennik, P., Zawadzka, A., Mysliwiec, J., Sahraoui, B.: Selected organometallic compounds for third order nonlinear optical application. Nanomaterials 9(2), 254 (2019)

Raza, N., Jannat, N., Gómez-Aguilar, J.F., Pérez-Careta, E.: New computational optical solitons for generalized complex Ginzburg–Landau equation by collective variables. Mod. Phys. Lett. B 36(28n29), 2250152 (2022)ADSMathSciNet

Tzuang, L.D., Fang, K., Nussenzveig, P., Fan, S., Lipson, M.: Non-reciprocal phase shift induced by an effective magnetic flux for light. Nat. Photonics 8(9), 701–705 (2014)ADS

Vani, P., Vinitha, G., Naseer, K.A., Marimuthu, K., Durairaj, M., Sabari Girisun, T.C., Manikandan, N.: Thulium-doped barium tellurite glasses: structural, thermal, linear, and non-linear optical investigations. J. Mater. Sci.: Mater. Electron. 32, 23030–23046 (2021)

Wang, T., Sohoni, M.M., Wright, L.G., Stein, M.M., Ma, S.Y., Onodera, T., McMahon, P.L.: Image sensing with multilayer nonlinear optical neural networks. Nat. Photonics 17(5), 408–415 (2023)ADS

Zhang, D., Tan, Z.: A review of optical neural networks. Appl. Sci. 12(11), 5338 (2022)

Titel: Optical quantum modeling for Heisenberg ferromagnetic normalized phase
verfasst von: Zeliha Körpinar
Talat Körpinar
Erdal Korkmaz
Publikationsdatum: 01.12.2023
Verlag: Springer US
Erschienen in: Optical and Quantum Electronics / Ausgabe 13/2023
Print ISSN: 0306-8919
Elektronische ISSN: 1572-817X
DOI: https://doi.org/10.1007/s11082-023-05225-6

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