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Даниел Маринов Данчев

Заемана длъжност: професор по математическо моделиране и приложение на математиката, ВАК, 2007 г.

р-л звено “Математическо моделиране и числени симулации“

Математическо моделиране и числени симулации

Стая: 310

Тел.: (02) 979 6447

E-mail: daniel@imbm.bas.bg

http://scholar.google.com/citations?user=Xd4qRfAAAAAJ

 

Научни степени, организация, година:

 

 

Магистър, СУ „Кл. Охридски”, 1985

д-р, СУ „Кл. Охридски”, 1990, ВАК

дфн,  ИМех - БАН, 2005, ВАК

Области на професионален интерес (ключови думи):

математическо моделиране, статистическа механика, ефект на Казимир, фазови преходи, нанотехнологии


Допълнителна инфомация:

From the article by R. Evans and J. R. Henderson in J. Phys.: Condens. Matter 21 (2009) 474220


Ode to Richard Palmer and other travellers on the imaginary axis


Beware this road to Hell
Strange asymmetrical poles lie waiting
Is it really imaginary? For
Surely the integrand is odd.
Fear the curse of Derjaguin
Wonder at Casimir and Lifshitz
Trust in Widom and Enderby
To Verlet via critical Dantchev.
Risking travails of Cauchy’s Theorem
Armed only with the RPA
Taming the asymmetrical poles and
Thereby saving the correlation length.

 

But, be careful ...

David Goodstein wrote in the book States of Matter, 1975, Dover N.Y.

"Ludwig Boltzmann, who spent much of his life studying statistical mechanics, died in 1906, by his own hand...

Paul Ehrenfest, carrying on the work, died similarly in 1933...

Now it is our turn to study statistical mechanics.

Perhaps it will be wise to approach the subject cautiously" ...

 

The links to two talks on Casimir i delivered at UCLA:

https://youtu.be/cvgw7y6JivY
https://youtu.be/DQ8dK-hP_fE

 

 


Recent Publications:

 

 

 

 

Монография: Jordan G. Brankov, Daniel M. Danchev, and Nicholay S. Tonchev,

 

THE THEORY OF CRITICAL PHENOMENA IN FINITE-SIZE     SYSTEMS - SCALING AND QUANTUM EFFECTS,

 

World Scientific, Singapore, 2000.

ISBN 981-02-3925-4

 

Монографията е том  9 от поредицата Series in Modern Condensed Matter Physics на издателство “World Scientific”.

 

 

 

 

 

I. Статии в реферирани списания

 

I.1) J. G. Brankov and D. M. Danchev,

Ground State of an Infinite Two-Dimensional System of Dipoles on a Lattice with Arbitrary Rhombicity Angle,

Physica  A 144 (1987) 128 - 139.

 

I.2) J. G. Brankov and D. M. Danchev,

On the Limit Gibbs States of the  Spherical Model,

J. Phys. A 20 (1987) 4901 - 4913.

 

I.3) J. G. Brankov and D. M. Danchev,

A Probabilistic View on Finite-Size Scaling in Infinitely Coordinated Spherical Models,

Physica A 158 (1989) 842 - 863.

 

I.4) D. M. Danchev,

Classical Dipoles on a Finite Triangular Lattice: the Spherical Model Approximation,

Physica A 163 (1990) 835 - 862.

 

I.5) J. G. Brankov and D. M. Danchev,

Finite-Size Scaling for the Correlation Function in the Spherical Model with Long-Range Interactions,

J. Math. Phys. 32 (1991) 2543 - 2560.

 

I.6) J. G. Brankov and D. M. Danchev,

Finite-Size Logarithmic Corrections in the Free Energy of the Mean Spherical Model,

J. Phys. A 26 (1993) 4485 - 4496.

 

I.7) J. G. Brankov and D. M. Danchev,

Logarithmic Finite-Size Corrections in the Three Dimensional Mean Spherical Model,

J. Stat. Phys.  71 (1993) 775 - 798.

 

I.8) D. M. Danchev,

Finite-Size Dependence of the Helicity Modulus within the Mean Spherical Model,

J. Stat. Phys.  73 (1993) 267 - 292.

 

I.9) D. M. Danchev,

Finite-Size Dependence of the Helicity Modulus within the Mean Spherical Model,

Ber. Bunsenges. Phys. Chem. 98, 483-485 (1994).

 

I.10) D. M. Danchev,

FSS Casimir Force Function: Exact Spherical Model Results,

Phys. Rev E 53 (1996) 2104-2109.

 

I.11) D. M. Danchev, J. G. Brankov and M. E. Amin,

New surface critical exponents in the spherical model ,

J. Phys. A 30 (1997)1387-1402.

 

I.12) D. M. Danchev, J. G. Brankov and M. E. Amin,

Surface critical exponents for a three-dimensional modified spherical model,

  1. Phys. А 30 (1997) 5645-5656.

 

I.13) H. Chamati, D. M. Danchev and N. S. Tonchev,

FSS properties and Casimir forces in an exactly solvable quantum statistical-mechanical model,

J. Theoretical and Applied Mechanics (Sofia) 28 (1998) 78-87.

 

I.14) D. M. Danchev,

Exact three-dimensional Casimir-force amplitude, C function and Binder’s cumulant ratio: Spherical model results,

Phys. Rev. E 58 (1998) 1455 – 1462.

 

I.15) D. M. Danchev and N. S. Tonchev,

On the finite-temperature generalization of the C-theorem and the interplay between the classical and quantum fluctuations,

J. Phys. A. 32 (1999) 7057 – 7070.

 

I.16) H. Chamati, D. M. Danchev and N. S. Tonchev,

Casimir amplitudes in a quantum spherical model with long-range interaction,

Eur. Phys. J. B 14 (2000) 307 - 316.

 

I.17) H. Chamati, D. M. Danchev and N. S. Tonchev,

Some new exact critical-point amplitudes,

Physics of Elementary Particles and Atomic Nuclei 31 (2000), 171 - 176.

 

I.18) D. Dantchev and J. Rudnick,

Subleading long-range interactions and violations of finite size scaling,

Eur. Phys. J. B 21 (2001) 251-268.

 

I.19) D. Dantchev,

Two-point correlation function in systems with van der Waals type interaction,

Eur. Phys. J. B 23.(2001) 211-219.

 

I.20) H. Chamati and D. Dantchev,

Renormalization group treatment of the scaling properties of finite systems with subleading long-range interaction,

Eur. Phys. J. B 26 (2002) 89-99.

 

I.21) D. Dantchev, M. Krech and S. Dietrich

Universality of the thermodynamic Casimir effect,

Phys. Rev. E. 68 (2003) 066120.

 

I.22) D. Dantchev and J. G. Brankov,

On the finite-size behavior of systems with asymptotically large critical shift,

J. Phys. A 36 (2003) 8915.

 

I.23) D.  Dantchev and M. Krech,

The critical Casimir force and its fluctuations in lattice spin models: exact and Monte Carlo results,

Phys. Rev. E 69 (2004) 046119.

 

I.24) H. Chamati and D. Dantchev,

Critical Casimir forces for O(n) systems with long-range interaction in the spherical limit,

Phys. Rev. E 70 (2004) 066106.

 

 

I. 25) D. Dantchev, M. Krech, and S. Dietrich,

Thermodynamic Casimir Force in Models of 4He Films,

Phys. Rev. Lett. 95 (2005) 259701

 

I. 26) D. Dantchev, H. W. Diehl and Daniel Grüneberg,

Excess free energy and Casimir forces in systems with long-range interactions of van-der-Waals type: General considerations and exact spherical-model results,

Phys. Rev. E 73 (2006) 016131.

 

I. 27) D. Dantchev, J. Rudnick and M. Barmatz,

Finite-size effects on the behavior of the susceptibility in van der Waals films bounded by strongly absorbing substrates,

Phys. Rev. E 75 (2007) 011121.

 

I. 28) D. Dantchev, Frank Schlesener, and S. Dietrich,

Interplay of critical Casimir and dispersion forces,

Phys. Rev. E 76 (2007) 011121.

 

I. 29) Daniel Dantchev and Daniel Grüneberg,

Casimir force in O(n) lattice models with a diffuse interface,

Physical Review E 79 (2009) 041103.

 

I.30) Daniel Dantchev, Joseph Rudnick, and M. Barmatz,

Finite-size effects in presence of gravity: The behavior of the susceptibility in 3He and 4He films near the liquid-vapor critical point,

Physical Review E 80 (2009) 031119.

http://link.aps.org/doi/10.1103/PhysRevE.80.031119

 

I.31) Jonathan Bergknoff, Daniel Dantchev, and Joseph Rudnick,

Casimir force in the rotor model with twisted boundary conditions,

Physical Review E 84 (2011) 041134

http://link.aps.org/doi/10.1103/PhysRevE.84.041134

 

I.32) Daniel Dantchev and Galin Valchev

Surface integration approach: A new technique for evaluating geometry dependent forces between objects of various geometry and a plate,

Journal of Colloid and Interface Science 372 (2012) pp.148–163, doi:10.1016/j.jcis.2011.12.040

 

I.33) Daniel Dantchev, Jonathan Bergknoff, and Joseph Rudnick

Casimir force in the O(n→∞) model with free boundary conditions,

Phys. Rev. E 89, 042116 (2014)

DOI:10.1103/PhysRevE.89.042116

 

I.34) Daniel Dantchev,  Jonathan Bergknoff, and Joseph Rudnick,

Reply to “Comment on ‘Casimir force in the O(n → ∞) model with free boundary conditions’ ”,

Phys. Rev. E 91, 026102 (2015)

DOI: 10.1103/PhysRevE.91.026102

 

I.35) Galin Valchev and Daniel Dantchev,

Critical and near-critical phase behavior and interplay between the thermodynamic Casimir and van der Waals forces in a confined nonpolar fluid medium
with competing surface and substrate potentials,

Physical Review E 92, 012119 (2015)

DOI: 10.1103/PhysRevE.92.012119

 

I.36) Daniel M Dantchev, Vassil M Vassilev and Peter A Djondjorov,

Exact results for the temperature-field behavior of the GinzburgLandau Ising type mean-field model,

J. Stat. Mech. (2015) P08025

doi:10.1088/1742-5468/2015/08/P08025

 

 

I.37) Daniel M Dantchev, Vassil M Vassilev and Peter A Djondjorov,

Exact results for the behavior of the thermodynamic Casimir force in a model with a strong adsorption,

Journal of Statistical Mechanics: Theory and Experiment, (2016) 093209, http://stacks.iop.org/1742-5468/2016/i=9/a=093209, arXiv:1603.08435v1 [cond-mat.stat-mech].

 

I.38) Daniel Dantchev and Joseph Rudnick,

Manipulation and amplification of the Casimir force through surface fields using helicity,

Phys. Rev. E 95, 042120 (2017), DOI: 10.1103/PhysRevE.95.042120,

https://journals.aps.org/pre/pdf/10.1103/PhysRevE.95.042120

 

I.39) Galin Valchev and Daniel Dantchev,

Sign change in the net force in sphere-plate and sphere-sphere systems immersed in nonpolar critical fluid due to the interplay between the critical Casimir and dispersion van der Waals forces,

Phys. Rev. E 96, 022107 (2017), DOI: 10.1103/PhysRevE.96.022107,

https://journals.aps.org/pre/pdf/10.1103/PhysRevE.96.022107

 

I 40) Vassilev, V.M., Dantchev, D.M., Djondjorov, P.A.,

Analytic solutions to a family of boundary-value problems for Ginsburg-Landau type equations.

1895, AIP Conference Proceedings, 2017, ISBN:978-0-7354-1579-9, DOI:10.1063/1.5007403, SJR:0.163

 

I.41) Valchev, G.S., Djondjorov, P.A., Vassilev, V.M., Dantchev, D.M.,

Van der Waals interactions between planar substrate and tubular lipid membranes undergoing pearling instability.

1895, AIP Conference Proceedings, 2017, ISBN:978-0-7354-1579-9, DOI:10.1063/1.5007402, SJR:0.163

 

I.42) Djondjorov, P.A., Dantchev, D.M., Vassilev V.M.,

Exact results for the Casimir force in a model with Neumann-infinity boundary conditions.

1895, AIP Conference Proceedings, 2017, ISBN:978-0-7354-1579-9, DOI:10.1063/1.5007401, SJR:0.163

 

I.43) Nikolova, G. S., Kazakoff, A. B., Dantchev, D.

Gender dependence of the mass characteristics of the human upper limb manipulator,

 

Series on Biomechanics, 31, 3, ISSN:1313-2458, 48-53 (2017). (SJR 0.118).

 

I.44) Nikolova, G., Dantchev, D., Kazakoff, A.,

 

Human upper limb manipulator mass center motion and mass moments of inertia variation,

 

MATEC Web of Conferences, 145, 04006 (2018), eISSN: 2261-236X, SJR:0.13. (SJR:0.13).

 

I.45) Nikolova, G., Kotev, V., Dantchev, D.

CAD design of human male body for mass–inertial characteristics studies,

 

MATEC Web of Conferences, 145, 04005 (2018), eISSN: 2261-236X, (SJR:0.13).

 

I.46) Djondjorov, P.A., Vassilev V.M., Dantchev, D.M.,

 

Analysis of the susceptibility in a fluid system with Neumann-plus boundary conditions,

 

MATEC Web of Conferences 145, 01001 (2018);

https://doi.org/10.1051/matecconf/201814501001

 

I.47) Vassil M. Vassilev, Daniel M. Dantchev, and Peter A. Djondjorov,

 

Order parameter profiles in a system with Neumann – Neumann boundary conditions,

MATEC Web of Conferences 145, 01009 (2018),

https://doi.org/10.1051/matecconf/201814501009

 

I.48) Nikolova G, Yordanov, Y. Dantchev, D. (2018)

3D mathematical model of the Bulgarian man: study of the mass-inertial characteristics of its body segments in different regions of the country,

Comptes rendus de l’Académie bulgare des Sciences, Volume 71, Issue No 9, pp. 1222-1229 (2018) (IF 0.270) DOI:10.7546/CRABS.2018.09.09

 

I.49) Nikolova G, Yordanov, Y. Dantchev, D. (2018),

Investigation of body segment mass-inertial parameters of the Bulgarian woman in different regions of the country using a 16-segmental mathematical model,

Comptes rendus de l’Académie bulgare des Sciences, Vol 71, No10, pp.1366-1373 (IF 0.270) DOI: 10.7546/CRABS.2018.10.10

I.50) Daniel Dantchev, Vassil M.Vassilev, and Peter A. Djondjorov, (2018)

Analytical results for the Casimir force in a Ginzburg-Landau type model of a film with strongly adsorbing competing walls,

Physica A, 302-315, 510 (2018) https://doi.org/10.1016/j.physa.2018.07.001

 

I.51) G. Nikolova, V. Kotev, and D. Dantchev (2019)

 

Results for Female’s Mass-Inertial Parameters in Basic Body Positions for Space Exploration as Classified by NASA,

AIP Conference Proceedings 2075, 170006 (2019); https://doi.org/10.1063/1.5091371

 

I.52) G. S. Valchev, and D. M. Dantchev (2019)

 

Fluctuation-induced interactions between ellipsoidal particle and planar substrate immersed in critical medium,

AIP Conference Proceedings 2075, 020021 (2019); https://doi.org/10.1063/1.5091138

 

I.53) Vassil M. Vassilev, Peter A. Djondjorov, and Daniel M. Danchev (2019)

 

Analytic representation of the order parameter profiles and susceptibility of a Ginzburg-Landau type model with strongly adsorbing competing walls,

AIP Conference Proceedings 2075, 020023 (2019); https://doi.org/10.1063/1.5091140

 

I.54) Daniel Dantchev, Joseph Rudnick, Vassil M. Vassilev, Peter A. Djondjorov (2019)

 

Exact solution for the order parameter profiles and the Casimir force in 4He superfluid films in an effective field theory,

 

Physica A 522 (2019) 324–338; https://doi.org/10.1016/j.physa.2019.02.003

 

I.55 Peter A. Djondjorov, Vassil M. Vassilev, and Daniel M. Danchev,  (2019)

 

Analytic solutions for the temperature-field behaviour of the Ginzburg-Landau Ising type mean-field model with Dirichlet boundary conditions,

AIP Conference Proceedings 2075, 200016 (2019); https://doi.org/10.1063/1.5099022

 

I.56 V. Vassilev, P. Djondjorov, and D. Dantchev,  (2019)

 

Analytic representation of the order parameter profiles and compressibility of a Ginzburg-Landau type model with Dirichlet-Dirichlet boundary conditions on the walls confining the fluid,

AIP Conference Proceedings 2164, 100008 (2019); https://doi.org/10.1063/1.5130845

 

I.57 G. S. Nikolova, M. S. Tsveov, and D. M. Dantchev, (2019)

 

A mathematical model of the human thigh and its connection with the torso,

AIP Conference Proceedings 2164, 030002 (2019); https://doi.org/10.1063/1.5130792

 

I.58 Daniel M Dantchev, (2020)

 

Exact results for the Casimir force of a three-dimensional model of relativistic Bose gas in a film geometry

Journal of Statistical Mechanics: Theory and Experiment, 2020, 063103

 

stacks.iop.org/JSTAT/2020/063103

https://doi.org/10.1088/1742-5468/ab900a

 

I.59 Dantchev, D., V. Vassiliev, P. Djondjorov.

 

Boundary conditions influence on the behavior of the Casimir force: A case study via exact results on the Ginzburg-Landau type fluid system with a film geometry.

 

AIP Conference Proceedings, 2302, AIP, 2020, 100003 pp.15

https://doi.org/10.1063/5.0033541

ISSN:978-0-7354-4036-4, DOI:10.1063/5.0033541. SJR (Scopus):0.19

 

I.60 Valchev, G. S., Djondjorov, P. A., Vassilev, V. M., Dantchev, D. M.

Behavior of the van der Waals force between a plate and a single-walled carbon nanotube under uniform hydrostatic pressure: a theoretical study.

Journal of Physics: Condensed Matter, 32, 40, 405001 (9 pp)

https://iopscience.iop.org/article/10.1088/1361-648X/ab95d0/meta

IOP Publishing, 2020, ISSN:09538984, 1361648X,

DOI:10.1088/1361-648X/ab95d0,. SJR (Scopus):0.936, Q1

 

I.61 Popov, S. I., Vassilev, V. M., Dantchev, D. M.

Symmetries and Conservation Laws of a System of Timoshenko Beam Type with Smooth Coeffcients.

Geometry, Integrability and Quantization, XXI, Avangard Prima, Sofia, 2020, pp. 242-250

ISSN:1314-3247, DOI:10.7546/giq-21-2020-242-250,. SJR (Scopus):0.24

https://projecteuclid.org/euclid.pgiq/1602640839#info

 

I.62 Vassilev, V. M., Dantchev, D. M., Popov, S. I.

Approximate Analytical Solutions of Generalized Lane-Emden-Fowler Equations.

Geometry, Integrability and Quantization, XXI, Avangard Prima, Sofia, 2020, pp. 302-309.

ISSN:1314-3247, DOI:10.7546/giq-21-2020-302-309, SJR (Scopus):0.24

https://projecteuclid.org/euclid.pgiq/1602640845

 

I.63 Nikolova, G., Dantchev, D., Kotev. V., Tsveov, M.

On 3D mathematical modeling of the human body: case study of the principal positions of interest for NASA of females on the example of Bulgarian population.

AIP Conference Proceedings, 16th International Conference of Computational Methods in Sciences and Engineering (ICCMSE 2020), 29 April- 3 May 2020, Heraklion, Greece, AIP Publishing, 2021, SJR (Scopus):0.19

 

I.64 Nikolova, G., Dantchev, D., Kotev, V., Tsveov, M.

The Human Body and Weightlessness: Mass-Inertial Characteristics in One of the Basic Positions Selected by NASA via 3D Mathematical Modelling.

 

IFMBE Proceedings, In: Jarm T., Cvetkoska A., Mahnič-Kalamiza S., Miklavcic D. (eds) 8th European Medical and Biological Engineering Conference. EMBEC 2020, 80, Springer Nature Switzerland AG, 2020, ISBN:978-3-030-64610-3 (Online)

 

https://doi.org/10.1007/978-3-030-64610-3_123 , pp. 1092-1100. SJR (Scopus):0.16

 

I.65 Nikolova, G., Dantchev, D., Kotev. V., Yordanov, Y.

 

New Anthropometric Data for Bulgarian Females and 3D Biomechanical Model Results for Inertial Parameters of the Upper and Lower Extremities.

IFMBE Proceedings, In: Jarm T., Cvetkoska A., Mahnič-Kalamiza S., Miklavcic D. (eds) 8th European Medical and Biological Engineering Conference. EMBEC 2020, 80, Springer Nature Switzerland AG, 2020, ISBN:978-3-030-64610-3 (Online)

 

https://doi.org/10.1007/978-3-030-64610-3_98 , pp. 877-886. SJR (Scopus):0.16

 

I.66 Nikolova, G., Dantchev, D., Tsveov, M.

New results for the mass-inertial parameters of the human body based on 3D mathematical modelling.

Journal of Theoretical and Applied Mechanics, 50, 4, 2020, 354-369

ISSN:0861-6663 SJR (Scopus):0.28

 

I.67 Nikolova, G., Dantchev, D..

3D mathematical model of the human body: Analytical results.

2302, 080005 (pp 10) AIP Publishing, 2020,

ISBN:978-0-7354-4036-4

https://doi.org/10.1063/5.0033607 , SJR (Scopus):0.19

 

I.69 Nikolova, G., Kotev, V., Dantchev, D., Tsveov, M.

Study of mass-inertial characteristics of female human body by walking.

AIP Conference Proceedings, 2239, 020032 (pp 10) AIP Publishing, 2020,

ISBN:978-0-7354-1998-8

https://doi.org/10.1063/5.0007797 , SJR (Scopus):0.19

 

1.70 Daniel Dantchev, Vassil Vassilev, and Peter Djondjorov

On the behavior of the Casimir force in an exactly solvable model of a liquid film with an ordering field: The case of Dirichlet boundary conditions

AIP Conference Proceedings 2343, 130001 (2021); https://doi.org/10.1063/5.0047758

SJR (Scopus):0.19

 

1.71 Gergana Nikolova, Daniel Dantchev, Vladimir Kotev, and Mihail Tsveov

On 3D mathematical modeling of the human body: Case study of the principal positions of interest for NASA of females on the example of Bulgarian population

AIP Conference Proceedings 2343, 130006 (2021); https://doi.org/10.1063/5.0047759 SJR (Scopus):0.19

 

1.72 D. Dantchev

On the finite-size behavior of one basic model of statistical mechanics describing second order phase transition

Journal of Theoretical and Applied Mechanics, Sofia, Vol.51 (2021) pp. 184-199

https://jtambg.eu/download.php?id=2738

 

1.73 Dantchev, D. M. and Dietrich, S.,

Critical Casimir Effect: Exact Results

arXiv:2203.15050 [cond-mat.stat-mech], 2022, https://doi.org/10.48550/arXiv.2203.15050

 

 

II. Други публикации

 

II.1) Д. Данчев, Автореферат на дисертация на тема “Теория на крайноразмерното подобие за системи с далекодействие: строги и точни резултати, София, 1989 г. за получаване на научната степен “кандидат на физическите науки”; “Специализиран научен съвет по физика на кондензираната материя” при ВАК.

 

II.2) Й. Г. Бранков и Д. М. Данчев

“Основное состояние бесконечной двумерной системы диполей на решётке с произвольным углом ромбичности”,

Материали на  V-я “Национален конгрес по теоретична и приложна механика”, Варна 1985 г., том 2, стр. 121-126.

 

II.3) В. М. Беданов, Г. В. Гадияк, Б. П. Юнжаков,  Й. Г. Бранков и Д. М. Данчев

“Ориентационные фазовые переходы в двумерной дипольной системе”

Материали на  V-я “Национален конгрес по теоретична и приложна механика”, Варна 1985 г., том 2, стр. 116-120.

 

II.4) J. G. Brankov and D. M. Danchev,

On the Limit Gibbs States of the Spherical and Mean Spherical Models,

Материали на  V-я международен симпозиум по избрани проблеми на статистическата механика, Дубна, Русия, 25 - 29 август 1987, стр. 59 - 65.

 

II.5) Й. Г. Бранков и Д. М. Данчев,

“Вероятностный подход к гипотезе конечноразмерного скейлинга”,

Материали на  VI-я “Национален конгрес по теоретична и приложна механика”, Варна 1989 г., том 1, стр. 59-62.

 

II.6) J. G. Brankov and D. M. Danchev,

Finite-Size Scaling at First-Order Phase Transitions: The Spherical Model with Long-Range Interactions,

in: Selected Topics in Statistical Mechanics, pp. 325-333, A. A. Logunov, N. N. Bogolubov Jr., A. S. Shumovsky, eds., World Scientific, Singapore, 1990.

 

II.7) D. M. Danchev,

Finite-Size Dependence of the Helicity Modulus within the Mean Spherical Model,

Препринт No: WUB 93 – 08 на: Fachbereich Physik, Bergische Universität, Gesamt-hochschule Wuppertal, Германия, Януари 1993.

 

II.8) H. Chamati, D. M. Danchev and N. S. Tonchev,

Low-temperature regimes and finite-size scaling in a quantum spherical model,

ICTP, Trieste (Italy), preprint IC/97/82, July 1997.

 

II.9) H. Chamati and D. M. Danchev,

Casimir amplitudes in a ferromagnetic model with long-range interactions,

"Proceedings of the Eleventh International School on Condensed Matter Physics", 3-8 September, 2000, Varna Eds. J. Marshall, A. Petrov, N. Kirov, Redwood Books, Trowbridge, Wiltshire, UK, 2001.

 

II.10) D. Dantchev, M. Krech and S. Dietrich,

Universality of the thermodynamic Casimir effect,

В “Annual Report 2002 of the Institute of Theoretical and Applied Physics at the University of Stuttgart and of the Max-Planck Institute for Metal Research, Stuttgart”, p. 64; Германия, 2003 г.

 

II.11) D. Dantchev and H. Chamati,

Casimir force, excess free energy and C-function in O(n) systems with long-range interactions in the n -> limit,

ICTP, Trieste (Italy), preprint IC/2004/32, June 2004.

 

II.12) Д. Данчев, Автореферат на дисертация на тема “Статистико-механичен ефект на Казимир”, София, 2005 г. за получаване на научната степен “доктор на физическите науки”; “Специализиран научен съвет по физика на кондензираната материя” при ВАК.

 

II.13) D. Dantchev, K. Kostadinov,

On Forces and Interactions at Small Distances in Micro and Nano Assembly Process,

in: 4M2006 2nd Int. conf. “Multi- Material Micro Manufacture” (Grenoble, France, 20-22.09.2006), Edited by St. Dimov and W. Menz,  Elsevier, ISBN-13: 978-0-08-045263-9,  pp. 241-245, (2006).

 

II.14) D. Dantchev, K. Kostadinov,

On the force between two metallic plates of a gripper immersed in a nonpolar fluid,

in: 4M 2008 International conference on Multi- Material Micro Manufacture (Cardiff, Great Britain, 9th – 11th September 2008), Edited by St. Dimov and W. Menz, Whittles Publishing, ISBN 978-1904445-76-0, pp. 279-282  (2008).

II.15) Dantchev D., K. Kostadinov,

On the environmental influence on the force between two metallic plates of a gripper immersed in a nonpolar fluid: the role of the temperature and the chemical potential,

Proceedings of the 4M/ICOMM International Conference on Multi-Material Micro Manufacture (4M/ICOMM 2009), Karlsruhe, Germany, 23rd – 25th September 2009, 4 pages, DOI: 10.1243/17547164C0012009060.

 

II.16) Vladimir Stavrov, Emil Tomerov, Chavdar Hardalov, Daniel Danchev, Kostadin Kostadinov, Galina Stavreva, Evstati Apostolov, Assen Shulev, Anna Andonova and Mohammed Al-Wahab,

Low Voltage Thermo-mechanically Driven Monolithic Microgripper with Piezoresistive Feedback ,

Book Series IFIP Advances in Information and Communication Technology,

Book Precision Assembly Technologies and Systems, Springer Boston, 2010,

ISSN1868-4238 (Print) 1868-422X (Online), Volume 315/2010

ISBN978-3-642-11597-4, DOI10.1007/978-3-642-11598-1_24

http://www.springerlink.com/content/12221r2880tm1364/

 

II.17) D. Dantchev, G. Valchev, and K. Kostadinov,

On the interaction of a micro object with the working arm of a gripper immersed in a nonpolar fluid,

Proceedings of the 7th International Conference on Multi-Material Micro Manufacture, 17-19 November, 2010, Bourg en Bresse and Oyonnax, France, Edited by Bertrand Fillon, Chantal Khan-Malek and Stefan Dimov

ISBN: 978-981-08-6555-9; doi:10.3850/978-981-08-6555-9_160, pp. 184-187 (2010)

 

II.18) G. Valchev, D. Dantchev, and K. Kostadinov,

On the Forces Between Micro and Nano Objects and a Gripper,

International Journal of Intelligent Mechatronics and Robotics (IJIMR), 2012, vol. 2, issue 2, 15-33; DOI: 10.4018/ijimr.2012040102, ISSN: 2156-1664, EISSN: 2156-1656

 

II.19) Галин Вълчев, Даниел Данчев,

Ролята на флуктуационно индуцираните взаимодействия в микро и нано-света,

Списание на БАН стр. 12-18, 1 (2013). ISSN 0007-3989

 

II.20) Nikolova G., Kotev V., Dantchev D.

CAD modelling of human body for robotics applications,

Proceedings of International Conference on Control, Artificial Intelligence, Robotics & Optimization, Prague, Czech Republic, May 20-22, 2017, DOI: 10.1109/ICCAIRO.2017.18, IEEE Computer Society Conference Publishing Services (CPS), ISBN-13: 978-1-5090-6536-3, 45-50, © 2017 IEEE. Link http://ieeexplore.ieee.org/document/8252960/

 

II.21) Nikolova G. S., Dantchev D. M., Kazakoff Al. B.

Human upper limb mass-inertial characteristics via computer modelling,

Proceedings of the 3rd World Congress on New Technologies (NewTech'17) Rome, Italy – June 6 – 8, 2017, ISSN: 2369-8128, DOI: 10.11159/icbb17.120, ICBB 120-1-ICBB 120-7.

 

II.22) Kotev, V.K., Nikolova, G.S., Dantchev, D.M.

Determination of mass-inertial characteristics of the human body in basic body positions: computer and mathematical modelling,

H. Eskola et al. (eds.), EMBEC & NBC 2017, Tampere, Finland, 11-15 June, 2017, IFMBE Proceedings 65, Springer Nature Singapore Pte Ltd., ISBN:978-981-10-5121-0, DOI: 10.1007/978-981-10-5122-7_145, 579-582. (SJR 0.143)

 

II.23) Nikolova, G., Kotev, V. and Dantchev, D.

Computer and mathematical modelling of the female human body: determination of mass-inertial characteristics in basic body positions,

Proceedings of the 7th International Conference on Simulation and Modeling Methodologies, Technologies and Applications (SIMULTECH 2017), Madrid, Spain, 26-28 July, 2017, DOI: 10.5220/0006480304160421, 416-421, SCITEPRESS – Science and Technology Publications, Lda., ISBN: 978-989-758-265-3.

 

II.24) Nikolova G., Kotev V and Dantchev, D.

CAD modelling of female human body for study of mass-inertial parameters,

In Proceedings of The 15th International Symposium on Computer Methods in Biomechanics and Biomedical Engineering and the 3rd Conference on Imaging and Visualization, CMBBE 2018, 26-29 March 2018, Lisbon, Portugal, P. R. Fernandes and J. M. Tavares (Editors), ISBN: 978-989-99424-6-2, (6 pages), IDMEC © 2018.

 

II.25) Nikolova G., Dantchev D., and Kazakoff A.

3D geometrical mathematical study and visualization of the human upper limb manipulator mass moments of inertia,

In Proceedings of The 15th International Symposium on Computer Methods in Biomechanics and Biomedical Engineering and the 3rd Conference on Imaging and Visualization, CMBBE 2018, 26-29 March 2018, Lisbon, Portugal, Portugal, P. R. Fernandes and J. M. Tavares (Editors), ISBN: 978-989-99424-6-2, (10 pages), IDMEC © 2018.

 

II.26) Nikolova, G., Kotev, V., Dantchev, D. and Kiriazov, P.

Basic inertial characteristics of human body by walking,

In Proceedings of The 15th International Symposium on Computer Methods in Biomechanics and Biomedical Engineering and the 3rd Conference on Imaging and Visualization, CMBBE 2018, 26-29 March 2018, Lisbon, Portugal, P. R. Fernandes and J. M. Tavares (Editors), ISBN: 978-989-99424-6-2, (10 pages), IDMEC © 2018.

 

 

 

Проекти: ДН 02/8 с МОН 20016-2019

Точни аналитични и числени резултати за поведението на крайно-размерни  нехомогенни

статистико-механични системи с фазови преходи

 

Членство в научни организации:

Съюз на учените в България,

Съюз на физиците в България,

Хумболтов съюз

Награди: Стипендиант на фондация Александър фон Хумболт, Награда на съюза на учените в България


Разширена информация (Цитати и др.)


Последна промяна:09-07-2022