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Optical and Quantum Electronics

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01.03.2024

Optical quantum conformable recursional electroosmotic optimistic energy

verfasst von: Talat Körpinar, Zeliha Körpinar

Erschienen in: Optical and Quantum Electronics | Ausgabe 3/2024

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Abstract

In this paper, we construct optical conformable normalization and conformable recursional of conformable magnetic field in spherical space. Thus, we obtain microfluidic optical conformable electroosmotic magnetical optimistic conformable energy. Finally, we design optical recursional conformable electroosmotic magnetical optimistic conformable energy.

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Ali, B., Shafiq, A., Siddique, I., Al-Mdallal, Q., Jarad, F.: Significance of suction/injection, gravity modulation, thermal radiation, and magnetohydrodynamic on dynamics of micropolar fluid subject to an inclined sheet via finite element approach. Case Stud. Therm. Eng. 28, 101537 (2021)CrossRef

Ashkin, A.: Acceleration and trapping of particles by radiation pressure. Phys. Rev. Lett. 24, 156–159 (1970)ADSCrossRef

Ashkin, A., Dziedzic, J.M., Bjorkholm, J.E., Chu, S.: Observation of a single-beam gradient force optical trap for dielectric particles. Opt. Lett. 11, 288–290 (1986)ADSPubMedCrossRef

Benton, M., Hossan, M.R., Konari, P.R., Gamagedara, S.: Effect of process parameters and material properties on laser micromachining of microchannels. Micromachines 10(2), 123 (2019)PubMedPubMedCentralCrossRef

Bergman, T.L.: Effect of reduced specific heats of nanofluids on single phase, laminar internal forced convection. Int. J. Heat Mass Transf. 52(5–6), 1240–1244 (2009)CrossRef

Delgado, M., Lázaro, A., Mazo, J., Marín, J.M., Zalba, B.: Experimental analysis of a microencapsulated PCM slurry as thermal storage system and as heat transfer fluid in laminar flow. Appl. Therm. Eng. 36, 370–377 (2012)CrossRef

Dhar, P.: Thermofluidic transport in droplets under electromagnetic stimulus: a comprehensive review. J. Indian Inst. Sci. 99, 105–119 (2019)CrossRef

Dholakia, K., Zemánek, P.: Colloquium: gripped by light: optical binding. Rev. Mod. Phys. 82, 1767–1791 (2010)ADSCrossRef

Eid, M.R., Al-Hossainy, A.F., Zoromba, M.S.: FEM for blood-based SWCNTs flow through a circular cylinder in a porous medium with electromagnetic radiation. Commun. Theor. Phys. 71(12), 1425 (2019)ADSMathSciNetCrossRef

Gürbüz, N.: The differential formula of Hasimoto transformation in Minkowski 3-space. Int. J. Math. Math. Sci. 2005, 542381 (2005)MathSciNetCrossRef

Gürbüz, N.E.: The evolution of electric field in pseudo-Galilean 3-space G13. Optik 269, 169818 (2022)ADSCrossRef

Hohenester, U.: Nano and Quantum Optics. Springer, Berlin (2020)CrossRef

Howell, J.R., Mengüç, M.P., Daun, K., Siegel, R.: Thermal Radiation Heat Transfer. CRC Press, Boca Raton (2020)CrossRef

Hussain, S.M., Jamshed, W., Pasha, A.A., Adil, M., Akram, M.: Galerkin finite element solution for electromagnetic radiative impact on viscid Williamson two-phase nanofluid flow via extendable surface. Int. Commun. Heat Mass Transf. 137, 106243 (2022)CrossRef

Hussain, M., Cui, J., Farooq, U., Ahmed Rabie, M.E., Muhammad, T.: Nonsimilar modeling and numerical simulations of electromagnetic radiative flow of Nanofluid with entropy generation. Math. Probl. Eng. 2022, 1–20 (2022)

Inc, M., Korpinar, T., Korpinar, Z.: Spherical traveling wave hypothesis for geometric optical phase with speherical magnetic ferromagnetic system. Opt. Quantum Electron. 55(2), 127 (2023)CrossRef

Körpınar, T.: Optical electromotive force with Heisenberg spherical ferromagnetic spin. Optik 245, 167521 (2021)ADSCrossRef

Körpınar, T., Demirkol, R.C.: Electromagnetic curves of the linearly polarized light wave along an optical fiber in a 3D semi-Riemannian manifold. J. Mod. Opt. 66(8), 857–867 (2019)ADSMathSciNetCrossRef

Körpınar, T., Demirkol, R.C.: Electromagnetic curves of the linearly polarized light wave along an optical fiber in a 3D Riemannian manifold with Bishop equations. Optik 200, 163334 (2020)ADSCrossRef

Körpınar, Z., Korpinar, T.: Optical hybrid electric and magnetic \( {\textbf{B} }_{1}\)-phase with Landau Lifshitz approach. Optik 247, 167917 (2021)ADSCrossRef

Körpinar, T., Körpinar, Z.: Optical spherical Ss-electric and magnetic phase with fractional q-HATM approach. Optik 243, 167274 (2021)ADSCrossRef

Körpinar, T., Körpinar, Z.: Spherical electric and magnetic phase with Heisenberg spherical ferromagnetic spin by some fractional solutions. Optik 242, 167164 (2021)ADSCrossRef

Körpinar, T., Körpinar, Z.: New version of optical spherical electric and magnetic flow phase with some fractional solutions in SH32. Optik 243, 167378 (2021)ADSCrossRef

Körpınar, Z., Körpınar, T.: Optical tangent hybrid electromotives for tangent hybrid magnetic particle. Optik 247, 167823 (2021)ADSCrossRef

Korpinar, T., Körpınar, Z.: Timelike spherical magnetic \({\mathbb{S} }_{ {\textbf{N} }}\) flux flows with Heisenberg sphericalferromagnetic spin with some solutions. Optik 242, 166745 (2021)ADSCrossRef

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

Körpınar, Z., Korpinar, T.: Optical spherical electroosmotic phase and optical energy for spherical \(\alpha \)-magnetic fibers. Optik 255, 168455 (2022)ADSCrossRef

Körpınar, Z., Korpinar, T.: Optical antiferromagnetic electric \({\mathbb{S} }\alpha \)-flux with electroosmotic velocity in Heisenberg \({\mathbb{S} }_{{\mathbb{H} }}^{2}\). Optik 252, 168206 (2022)ADSCrossRef

Körpınar, T., Körpınar, Z.: Optical electromagnetic flux fibers with optical antiferromagnetic model. Optik 251, 168301 (2022)ADSCrossRef

Körpinar, T., Körpinar, Z.: Optical Heisenberg Landau Lifshitz electromotive microscale. Opt. Quantum Electron. 55(14), 1283 (2023)CrossRef

Körpinar, T., Körpinar, Z.: Optical viscous quantum ferromagnetic model for thermal radiation. Opt. Quantum Electron. 55(13), 1156 (2023)CrossRef

Körpinar, T., Körpinar, Z.: Optical quantum hydrostatic electromagnetic microplates according to non-linear heat frame. Opt. Quantum Electron. 55(12), 1058 (2023)CrossRef

Körpinar, T., & Körpinar, Z.: Optical complex media for ferromagnetic spherical microfluidic optical mKdV magnetic flux density. Waves Random Complex Media 1–15 (2023d)

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

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

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

Körpınar, T., Demirkol, R.C., Körpınar, Z.: Soliton propagation of electromagnetic field vectors of polarized light ray traveling in a coiled optical fiber in the ordinary space. Int. J. Geom. Methods Mod. Phys. 16(8), 1950117 (2019)MathSciNetCrossRef

Körpınar, T., Demirkol, R.C., Körpınar, Z.: Soliton propagation of electromagnetic field vectors of polarized light ray traveling along with coiled optical fiber on the unit 2-sphere S\(^{2}\). Rev. Mex. Fis. 65, 626 (2019)MathSciNetCrossRef

Körpınar, T., Körpınar, Z., Demirkol, R.C.: Binormal Schrodinger system of wave propagation field of light radiate in the normal direction with q-HATM approach. Optik 235, 166444 (2020)ADSCrossRef

Körpınar, T., Körpınar, Z., Yeneroğlu, M.: Optical energy of spherical velocity with optical magnetic density in Heisenberg sphere space \({\mathbb{S} }_{Heis^{3}}^{2}\). Optik 247, 167937 (2021)ADSCrossRef

Körpınar, T., Sazak, A., Körpınar, Z.: Optical effects of some motion equations on quasi-frame with compatible Hasimoto map. Optik 247, 167914 (2021)ADSCrossRef

Körpınar, T., Körpınar, Z., Asil, V.: New approach for optical electroostimistic phase with optical quasi potential energy. Optik 251, 168291 (2022)ADSCrossRef

Körpınar, T., Demirkol, R.C., Asil, V., Körpınar, Z.: Magnetic flux surfaces by the fractional Heisenberg antiferromagnetic flow of magnetic b-lines in binormal direction in Minkowski space. J. Magn. Magn. Mater. 549, 168952 (2022)CrossRef

Körpınar, T., Körpınar, Z., Asil, V.: Electric flux fibers with spherical antiferromagnetic approach with electroosmotic velocity. Optik 252, 168108 (2022)ADSCrossRef

Körpinar, T., Körpinar, Z., Özdemir, H.: Optical conformable normalization energy of hyperbolic magnetic curves. Opt. Quantum Electron. 55(14), 1233 (2023)CrossRef

Körpinar, T., Körpinar, Z., Sazak, A.: Optical modeling of recursively antiferromagnetic flux with quantum system. Opt. Quantum Electron. 55(14), 1226 (2023)CrossRef

Körpınar, T., Ünlütürk, Y., Körpınar, Z.: A new version of the motion equations of pseudo null curves with compatible Hasimoto map. Opt. Quantum Electron. 55(1), 23 (2023)CrossRef

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

Kumar, S., Tong, Z., Jiang, X.: Advances in the design and manufacturing of novel freeform optics. Int. J. Extreme Manuf. 4(3), 032004 (2022)CrossRef

Li, Y.X., Khan, M.I., Gowda, R.P., Ali, A., Farooq, S., Chu, Y.M., Khan, S.U.: Dynamics of aluminum oxide and copper hybrid nanofluid in nonlinear mixed Marangoni convective flow with entropy generation: applications to renewable energy. Chin. J. Phys. 73, 275–287 (2021)MathSciNetCrossRef

Lu, R., Van Beers, R., Saeys, W., Li, C., Cen, H.: Measurement of optical properties of fruits and vegetables: a review. Postharvest Biol. Technol. 159, 111003 (2020)CrossRef

Mansour, R.B., Galanis, N., Nguyen, C.T.: Effect of uncertainties in physical properties on forced convection heat transfer with nanofluids. Appl. Therm. Eng. 27(1), 240–249 (2007)CrossRef

Naterer, G.F.: Microfluidic friction and thermal energy exchange in a non-polarized electromagnetic field. Int. J. Energy Res. 31(6–7), 728–741 (2007)CrossRef

Naterer, G.F., Adeyinka, O.B.: Microfluidic exergy loss in a non-polarized thermomagnetic field. Int. J. Heat Mass Transf. 48(19–20), 3945–3956 (2005)CrossRef

Reza, M., Rana, A., Shit, G.C.: Thermo-fluidic transport of electromagnetohydrodynamic flow in a corrugated porous medium microchannel. Eur. Phys. J. Plus 136(5), 496 (2021)CrossRef

Salunkhe, P.B., Shembekar, P.S.: A review on effect of phase change material encapsulation on the thermal performance of a system. Renew. Sustain. Energy Rev. 16(8), 5603–5616 (2012)CrossRef

Schief, W.K., Rogers, C.: The Da Rios system under a geometric constraint: the Gilbarg problem. J. Geom. Phys. 54(3), 286–300 (2005)ADSMathSciNetCrossRef

Soares, N., Matias, T., Durães, L., Simões, P.N., Costa, J.J.: Thermophysical characterization of paraffin-based PCMs for low temperature thermal energy storage applications for buildings. Energy 269, 126745 (2023)CrossRef

Song, Y.Q., Khan, S.A., Imran, M., Waqas, H., Khan, S.U., Khan, M.I., Chu, Y.M.: Applications of modified Darcy law and nonlinear thermal radiation in bioconvection flow of micropolar nanofluid over an off centered rotating disk. Alex. Eng. J. 60(5), 4607–4618 (2021)CrossRef

Song, S., Xu, G., Wang, B., Liu, D., Ren, Z., Wang, C., Li, Y.: A multifunctional flexible electronic skin for dynamic thermal radiation regulation and electromagnetic interference shielding. ACS Appl. Mater. Interfaces 14(46), 52379–52389 (2022)PubMedCrossRef

Zhang, L., Bhatti, M.M., Michaelides, E.E., Ellahi, R.: Characterizing quadratic convection and electromagnetically induced flow of couple stress fluids in microchannels. Qual. Theory Dyn. Syst. 23(1), 35 (2024)MathSciNetCrossRef

Titel: Optical quantum conformable recursional electroosmotic optimistic energy
verfasst von: Talat Körpinar
Zeliha Körpinar
Publikationsdatum: 01.03.2024
Verlag: Springer US
Erschienen in: Optical and Quantum Electronics / Ausgabe 3/2024
Print ISSN: 0306-8919
Elektronische ISSN: 1572-817X
DOI: https://doi.org/10.1007/s11082-023-06032-9

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