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ЦИТИРАНОСТ РАДОВА ДР ЂУРЂА У. ЦВИЈОВИЋА
ЦИТИРАНИ РАД
1.
Periodicum Biologorum 90 (1988) 175-178.
2.
Journal de Physique I 2 (1992) 137-147.
3.
Journal de Physique I 2 (1992) 2191-2205.
4.
Journal de Physique I 2 (1992) 2207-2220.
5.
Journal de Physique I 3 (1993) 909-924.
6.
Proceedings of the Royal Society of London Series A-Mathematical Physical
and Engineering Sciences 444 (1994) 525-532.
7.
Chemical Physics Letters 226 (1994) 93-99.
8.
Mathematics of Computation 64 (1995) 205-210.
9.
Proceedings of the American Mathematical Society 123 (1995) 1527-1535.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
Science 267 (1995) 664-666.
Proceedings of the American Mathematical Society 125 (1997) 1263-1271
Proceedings of the American Mathematical Society 125 (1997) 2543-2550.
Nieuw Archief voor Wiskunde 16 (1998) 11-14.
Matematički vesnik (Belgrade) 50 (1998) 105-110
Mathematics of Computation 68 (1999) 1623-1630.
Journal of Computational and Applied Mathematics 106 (1999) 169-175.
Chemical Physics Letters 314 (1999) 543-551.
Mathematica Slovaca 50 (2000) 149–157.
Mamatematički Vesnik 52 (2000) 47–54.
Mathematica Slovaca 50 (2000) 159–64.
Atti del Seminario Matematico e Fisico dell'Università di Modena XLVIII
(2000) 317-333.
22. Journal of Computational and Applied Mathematics 142 (2002) 435-439.
Chapter in the book “Handbook of global optimization,Volume 2: Heuristic
23. approaches“ (Editors P. M. Pardalos and H. E. Romeijn), Kluwer Academic
БРОЈ ЦИТАТА
2
15
14
12
9
5
15
9
24
310
26
5
2
1
10
4
12
1
1
10
1
19
11
Publishers, pp. 387–406, 2002.
24. Mathematical Proceedings of the Cambridge Philosophical Society 135
1
25. Proceedings of the Royal Society of London Series A – Mathematical, Physi-
3
(2003) 199-209.
cal and Engineering Sciences 463 (2007) 897-905.
26.
27.
28.
29.
30.
31.
32.
33.
34.
35.
Journal of Physics A – Mathematical and Theoretical 40 (2007) 15019-28.
Integral Transforms and Special Functions 18 (2007) 569-579.
Journal of Mathematical Analysis and Applications 332 (2007) 1056-1062.
Advanced Studies in Contemporary Mathematics 15 (2007) 1-12
Journal of Mathematical Physics 48 (2007) 043507
Applied Mathematics and Computation 190 (2007) 590-598
Integral Transforms and Special Functions 19 (2008) 147-155.
Journal of Mathematical Analysis and Applications 337 (2008) 169-173.
Numerical Algorithms 49 (2008) 129-141
Journal of Mathematical Physics 50 (2009) 023515.
8
2
3
1
1
1
4
2
2
1
36.
37.
38.
39.
40.
41.
42.
Applied Mathematics Letters 22 (2009) 1081-1084.
Applied Mathematics and Computation 215 (2009) 3002-3006.
Journal of Mathematical Analysis and Applications 351 (2009) 244-256.
Physica A: Statistical Mechanics and its Applications 389 (2010) 1594-1600.
Applied Mathematics and Computation 215 (2010) 4040-4043.
Taiwanese Journal of Mathematics 13 (2009) 855-870.
Theoretical and Mathematical Physics 166 (2011) 37-42.
УКУПАН БРОЈ ЦИТАТА
2
4
1
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3
3
1
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Цитираност радова (без самоцитата):
1. R. Srejic, T. Wieczorkiewicz, D. Vucelic, D. Cvijović, V. Stamovska, Mhyelinated
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1.
C. Oguey, J.F. Sadoc, Crystallographic aspects of the Bonnet transformation for periodic minimal
surfaces (and crystals of films), Journal de Physique I 3 (1993) 839-854.
2.
H. Terrones, A. L. Mackay, Triply periodic minimal surfaces decorated with curved graphite, Chemical Physics Letters 207 (1993) 45-50.
3.
K. Yang, Complete Minimal Surfaces of Finite Total Curvature, Kluwer Academic Publishers, Dordrecht, 1994.
4.
W. Fischer, E. Koch, Spanning minimal surfaces, Philosophical Transactions of the Royal Society of
London Series A-Mathematical Physical and Engineering Sciences 354 (1996) 2105-2142.
5.
J. Klinowski, A. L. Mackay, H. Terrones, Curved surfaces in chemical structure, Philosophical
Transactions of the Royal Society of London Series A-Mathematical Physical and Engineering Sciences 354 (1996) 1975-1987.
6.
Fogden, S. T. Hyde, Continuous transformations of cubic minimal surfaces, European Physical Journal B 7 (1999) 91-104.
7.
E. Koch, W. Fischer, Minimal surfaces with self-intersections along straight lines. I. Derivation and
properties, Acta Crystallographica Section A 55 (1999) 58-64.
8.
R. Holyst and W. T. Gozdz, Periodic surfaces in physics, chemistry and biology, Chapter in: G. L.
Trigg (Ed.), Encyclopedia of Applied Physics, Update 1, Wiley-VCH Verlag GmbH, 1999, pp. 145160. Article Online Posting Date: April 15, 2003 in Digital Encyclopedia of Applied Physics, doi:
10.1002/3527600434.eap582.
9.
P. J. F. Gandy, J. Klinowski, Exact computation of the triply periodic G ('Gyroid') minimal surface,
Chemical Physics Letters 321 (2000) 363-371.
10. P. J. F. Gandy, J. Klinowski, Exact computation of the triply periodic Schwarz P minimal surface,
Chemical Physics Letters 322 (2000) 579-586.
11. E. Koch, Self-intersecting three-periodic minimal surfaces forming two-periodic (flat) labyrinths,
Zeitschrift fur Kristallographie 215 (2000) 386-392.
12. P. J. F. Gandy, S. Bardhan, A. L. Mackay, J. Klinowski, Nodal surface approximations to the P, G, D
and I-WP triply periodic minimal surfaces, Chemical Physics Letters 336 (2001) 187-195.
13. E. Koch, Self-intersecting three-periodic minimal surfaces forming one-periodic tubes or finite polyhedra, Zeitschrift fur Kristallographie 216 (2001) 430-437.
14. C. D. Santangelo, R. D. Kamien, Elliptic phases: A study of the nonlinear elasticity of twist-grain
boundaries, Physical Review Letters 96 (2006) 137801.
15. C. D. Santangelo, R. D. Kamien, Triply periodic smectic liquid crystals, Physical Review E 75 (2007)
011702.
3. D. Cvijović, J. Klinowski, Тhe T and CLP families of triply periodic minimal surfaces.
Part 2. The properties and computation of T surfaces, Journal de Physique I 2 (1992)
2191-2205.
1.
H. Terrones, A. L. Mackay, Triply periodic minimal surfaces decorated with curved graphite, Chemical Physics Letters 207 (1993) 45-50.
2.
W. Fischer, E. Koch, Spanning minimal surfaces, Philosophical Transactions of the Royal Society of
London Series A-Mathematical Physical and Engineering Sciences 354 (1996) 2105-2142.
3.
J. Klinowski, A. L. Mackay, H. Terrones, Curved surfaces in chemical structure, Philosophical
Transactions of the Royal Society of London Series A-Mathematical Physical and Engineering
Sciences 354 (1996) 1975-1987.
4.
E. Koch, W. Fischer, Minimal surfaces with self-intersections along straight lines. I. Derivation and
properties, Acta Crystallographica Section A 55 (1999) 58-64.
5.
R. Holyst and W. T. Gozdz, Periodic surfaces in physics, chemistry and biology, Chapter in: G. L.
Trigg (Ed.), Encyclopedia of Applied Physics, Update 1, Wiley-VCH Verlag GmbH, 1999, pp. 145160. Article Online Posting Date: April 15, 2003 in Digital Encyclopedia of Applied Physics, doi:
10.1002/3527600434.eap582.
6.
P. J. F. Gandy, J. Klinowski, Exact computation of the triply periodic G ('Gyroid') minimal surface,
Chemical Physics Letters 321 (2000) 363-371.
7.
P. J. F. Gandy, J. Klinowski, Exact computation of the triply periodic Schwarz P minimal surface,
Chemical Physics Letters 322 (2000) 579-586.
8.
E. Koch, Self-intersecting three-periodic minimal surfaces forming two-periodic (flat) labyrinths,
Zeitschrift fur Kristallographie 215 (2000) 386-392.
9.
P. J. F. Gandy, S. Bardhan, A. L. Mackay, J. Klinowski, Nodal surface approximations to the P, G, D
and I-WP triply periodic minimal surfaces, Chemical Physics Letters 336 (2001) 187-195.
10. E. Koch, Self-intersecting three-periodic minimal surfaces forming one-periodic tubes or finite polyhedra, Zeitschrift fur Kristallographie 216 (2001) 430-437.
11. H. Aoki, M. Koshino, D. Takeda, H. Morise, K. Kuroki, Electronic structure of periodic curved surfaces: Topological band structure, Physical Review B 65 (2002) 035102.
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Nanostructures: novel architecture, Nova Science Publishers, Hauppauge, NY, 2005, pp. 269-297.
13. C. D. Santangelo, R. D. Kamien, Elliptic phases: A study of the nonlinear elasticity of twist-grain
boundaries, Physical Review Letters 96 (2006) 137801.
14. C. D. Santangelo, R. D. Kamien, Triply periodic smectic liquid crystals, Physical Review Е 75 (2007)
011702.
4. D. Cvijović, J. Klinowski, Тhe T and CLP families of triply periodic minimal surfaces.
Part 3. The properties and computation of CLP surface, Journal de Physique I 2 (1992)
2207-2220.
1.
H. Terrones, A. L. Mackay, Triply periodic minimal surfaces decorated with curved graphite, Chemical Physics Letters 207 (1993) 45-50.
2.
W. Fischer, E. Koch, Spanning minimal surfaces, Philosophical Transactions of the Royal Society of
London Series A-Mathematical Physical and Engineering Sciences 354 (1996) 2105-2142.
3.
J. Klinowski, A. L. Mackay, H. Terrones, Curved surfaces in chemical structure, Philosophical
Transactions of the Royal Society of London Series A-Mathematical Physical and Engineering Sciences 354 (1996) 1975-1987.
4.
E. Koch, W. Fischer, Minimal surfaces with self-intersections along straight lines. I. Derivation and
properties, Acta Crystallographica Section A 55 (1999) 58-64.
5.
R. Holyst and W. T. Gozdz, Periodic surfaces in physics, chemistry and biology, Chapter in: G. L.
Trigg (Ed.), Encyclopedia of Applied Physics, Update 1, Wiley-VCH Verlag GmbH, 1999, pp. 145160. Article Online Posting Date: April 15, 2003 in Digital Encyclopedia of Applied Physics, doi:
10.1002/3527600434.eap582.
6.
P. J. F. Gandy, J. Klinowski, Exact computation of the triply periodic G ('Gyroid') minimal surface,
Chemical Physics Letters 321 (2000) 363-371.
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P. J. F. Gandy, J. Klinowski, Exact computation of the triply periodic Schwarz P minimal surface,
Chemical Physics Letters 322 (2000) 579-586.
8.
E. Koch, Self-intersecting three-periodic minimal surfaces forming two-periodic (flat) labyrinths,
Zeitschrift fur Kristallographie 215 (2000) 386-392.
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P. J. F. Gandy, S. Bardhan, A. L. Mackay, J. Klinowski, Nodal surface approximations to the P, G, D
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10. E. Koch, Self-intersecting three-periodic minimal surfaces forming one-periodic tubes or finite polyhedra, Zeitschrift fur Kristallographie 216 (2001) 430-437.
11. C. D. Santangelo, R. D. Kamien, Elliptic phases: A study of the nonlinear elasticity of twist-grain
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12. C. D. Santangelo, R. D. Kamien, Triply periodic smectic liquid crystals, Physical Review Е 75 (2007)
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5.
D. Cvijović, J. Klinowski, The oCLP family of triply periodic minimal surfaces, Journal de Physique I 3 (1993) 909-924.
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J. Klinowski, A. L. Mackay, H. Terrones, Curved surfaces in chemical structure, Philosophical
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E. Koch, W. Fischer, Minimal surfaces with self-intersections along straight lines. I. Derivation and
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P. J. F. Gandy, J. Klinowski, Exact computation of the triply periodic G ('Gyroid') minimal surface,
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P. J. F. Gandy, J. Klinowski, Exact computation of the triply periodic Schwarz P minimal surface,
Chemical Physics Letters 322 (2000) 579-586.
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