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Publications in Math-Net.Ru
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Modelling and design of permanent magnet multipoles for beam transport and focusing. II. Configuring the quad
Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 18:4 (2022), 454–472
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Numerical models for analysis and adjustment of magnetic field in medical centers. I. Simulation of geomagnetic field disturbances
Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 18:3 (2022), 365–378
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Modelling and design of permanent magnet multipoles for beam transport and focusing. I. Selection of optimal design and parameters
Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 17:4 (2021), 313–329
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Combined electromagnetic suspensions with reduced energy consumption for levitation vehicles
Zhurnal Tekhnicheskoi Fiziki, 89:7 (2019), 1123–1129
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Simulations of maglev EDS performance with detailed numerical models
Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 14:4 (2018), 286–301
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Modeling of magnetic field perturbations in electrophysical devices due to the steel reinforcement of buildings
Zhurnal Tekhnicheskoi Fiziki, 87:10 (2017), 1459–1465
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Simulation of electrodynamic suspension systems for levitating vehicles. IV. Discrete track systems
Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 2016, no. 3, 4–17
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Simulation of electrodynamic suspension systems for levitating vehicles. III. Continuous track systems
Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 2015, no. 3, 4–20
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Simulation of electrodynamic suspension systems for levitating vehicles. II. Validation of computational models
Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 2015, no. 2, 17–31
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Simulation of electrodynamic suspension systems for levitating vehicles. I. Modelling of electromagnetic behaviour of maglev vehicles with electrodynamic suspension
Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 2014, no. 4, 5–16
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