Κεφάλαιο 1 - Nemertes

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ΑΝΑΣΚΟΠΗΣΗ ΕΠΙΣΤΗΜΟΝΙΚΗΣ ΒΙΒΛΙΟΓΡΑΦΙΑΣ [16] Vlugt, T. J. H., Martin, M. G., Smit, B., Siepmann, J. I., and Krishna, R., (1998), “Improving the efficiency of the CBMC algorithm”, Mol. Phys., 94,pp. 727.-733. [17] Deem, Μ.W., (1998), “Recent contributions of statistical mechanics in chemical engineering”, AIChE Journal., 44, pp. 2569-2596. [18] Spyriouni, T., Economou, I. G. and Theodorou, D. N., (1997), “Thermodynamics of Chain Fluids from Atomistic Simulation: A Test of the Chain Increment Method for Chemical Potential”, Macromolecules, Vol. 30, p. 4744. [19] Metropolis, Η., Rosenbluth, A. W., Rosenbluth, Μ. Ν., Teller, Α. Η. and Teller, Ε. J.,(1953), “Equations of state calculations by fast computing machines”, Chem. Phys., SI, 1087. [20] Alder, B. J., and Wainwright, T., E., (1957), “Phase transition of a hard sphere system”, Journal of Chemical Physics Vol. 27, pp. 1208-1209. [21] Alder, B. J., and Wainwright, T., E., (1959), “Studies in Molecular Dynamics I: General method”, Journal of Chemical Physics Vol. 31, pp. 459-466. [22] Rahman, A., (1964), “Correlations in the motion of atoms in liquid Argon”, Physical Reviews Vol. 136, pp. 405-411. [23] Stillinger, F. H. and Rahman, A., (1974), “Improved Simulation of liquid water by molecular dynamics”, Journal of Chemical Physics Vol. 60, pp. 1545-1557. [24] McCammon, J. A., Gelin, B. R. and Karplus, M., (1977), “Dynamics of folded proteins”, Nature Vol. 267, pp. 585-590. [25] Rapaport, D.C., (1995), “The art of molecular dynamics”, Cambridge University Press, Cambridge, UK. [26] Hansen, J.P. and MacDonald, I.A., (1990), “Theory of simple liquids”, Academic Press, New York. [27] Poulikakos, D., Arcidiacono, S. and Maruyama, S., (2003), “Molecular dynamics simulation in nanoscale heat transfer: a review”, Microscale Thermophysical Engineering, Vol. 7, pp. 181-206. [28] Volz, S., Saulnier, J.-B., Lallemand, M., Perrin, B., Depondt, P. and Mareschal, M., (1996), “Transient Fourier-law deviation by molecular dynamics in solid argon”, Physics Reviews B, Vol. 54 (1), pp. 340-347. [29] Mountain, R.D. and MacDonald, R.A., (1983), “Thermal conductivity of crystals: A molecular-dynamics study of heat flow in a two-dimensional crystal”, Physics Reviews B, Vol. 28 (6), pp. 3022-3025. 90
ΚΕΦΑΛΑΙΟ 2 ο [30] Tnenbaum, A., Ciccotti, G. and Gallico, R., (1982), “Stationary nonequilibrium states by molecular dynamics. Fourier's law”, Applied Physics A, Vol. 25 (5), pp. 2778-2787. [31] Poetzsch, R.H. and Böttger, H., (1994), “Interplay of disorder and anharmonicity in heat conduction: Molecular-dynamics study”, Physics Reviews B, Vol. 50 (21), pp. 15575- 15763. [32] Volz, S.G. and Chen, G., (2000), “Molecular-dynamics simulation of thermal conductivity of silicon crystals”, Physics Reviews B, Vol. 61, pp. 2651-2656. [33] Ladd, A.J., Moran, B. and Hoover, G., (1986), “Lattice thermal conductivity: A comparison of molecular dynamics and anharmonic lattice dynamics”, Physics Reviews B, Vol. 34 (8), pp. 5058-5064. [34] Che, J., Cagin, T., Deng, W. and Goddard, W.A., (2000), “Thermal conductivity of diamond and related materials from molecular dynamics simulations”, Journal of Chemical Physics, Vol. 113 (16), pp. 6888-6900. [35] Lukes, J.R., Li, D.Y., Liang, X.G. and Tien, C.L., (2000), “Molecular Dynamics Study of Solid Thin-Film Thermal Conductivity”, Journal of Heat Transfer, Vol. 122, p. 536. [36] Porter, L.J., Li, J. and Yip, S., (1997), “Atomistic modeling of finite-temperature properties of β-SiC. I. Lattice vibrations, heat capacity, and thermal expansion”, Journal of Nuclear Materials, Vol. 246, pp. 53-59. [37] Li, J., Porter, L. and Yip, S., (1998), “Atomistic modeling of finite-temperature properties of crystalline β-SiC: II. Thermal conductivity and effects of point defects”, Journal of Nuclear Materials, Vol. 255, pp. 139-152. [38] Stillinger, F.H. and Weber, T.A., (1985), “Computer simulation of local order in condensed phases of silicon”, Physics Reviews B, Vol. 31 (8), pp. 5262-5271. [39] Goodson, K.E. and Ju, Y.S., (1999), “Heat conduction in novel electronic films”, Annual Reviews of Materials Science, Vol. 29, pp. 261-293. [40] Chen, G., (1998), “Thermal conductivity and ballistic-phonon transport in the cross-plane direction of superlattices”, Physics Reviews B, Vol. 57 (23), pp. 14958-14973. [41] Muller-Plathe, F., (1997), “A simple nonequilibrium molecular dynamics method for calculating the thermal conductivity”, Journal of Chemical Physics, Vol. 106, pp. 6082- 6085. [42] Kubo, R., Yokota, M. and Nakajima, S., (1957), “Statistical-mechanical theory of irreversible processes. II. Response to thermal disturbance”, Journal of the Physical Society of Japan, Vol. 12 (11), pp. 1203-1211. 91
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ΠΑΝΕΠΙΣΤΗΜΙΟ ΠΑΤΡ
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Η παρούσα διατριβή
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Στους γονείς µου Γι
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Πειραµατική και θε
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Experimental and theoretical invest
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ΠΕΡΙΕΧΟΜΕΝΑ 2.4.2.2 Πρ
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ΠΕΡΙΕΧΟΜΕΝΑ 6. ΑΝΑΠ
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1.1 Γενικά Κεφάλαιο 1
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ΚΕΦΑΛΑΙΟ 1 ο αποτελ
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Σχήµα 1.1: Εφαρµογή δ
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ΚΕΦΑΛΑΙΟ 1 ο παρουσ
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ΚΕΦΑΛΑΙΟ 1 ο κατάστ
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ΚΕΦΑΛΑΙΟ 1 ο συστήµ
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ΚΕΦΑΛΑΙΟ 1 ο [13] Leidinge
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2.3 Μοντέλα για µορι
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ΚΕΦΑΛΑΙΟ 2 ο προσαν
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ΚΕΦΑΛΑΙΟ 2 ο ιδιότη
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ΚΕΦΑΛΑΙΟ 2 ο οποία θ
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ΚΕΦΑΛΑΙΟ 2 ο άτοµα,
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ΚΕΦΑΛΑΙΟ 2 ο Γενικά
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2.4 Τύποι & δυναµικά
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Σχήµα 2.3: Μεταβατικ
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ΚΕΦΑΛΑΙΟ 2 ο διαδικ
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ΚΕΦΑΛΑΙΟ 2 ο προσοµ
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ΚΕΦΑΛΑΙΟ 2 ο Οι διαδ
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Page 91 and 92: Fermi-Dirac distribution: Bose-Eins
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ΘΕΩΡΗΤΙΚΗ ΑΝΑΛΥΣΗ
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ΜΟΡΙΑΚΗ ∆ΥΝΑΜΙΚΗ Α
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ΜΕΘΟ∆ΟΛΟΓΙΑ ΕΠΙΛΥ
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ΚΕΦΑΛΑΙΟ 6 ο Για τη
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ΚΕΦΑΛΑΙΟ 6 ο µε δεδο
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ΚΕΦΑΛΑΙΟ 6 ο συσχέτ
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ΚΕΦΑΛΑΙΟ 6 ο Όλες οι
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private void adjustVelocities(doubl
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if (element.isRemoved()) { particle
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} } public void importCompleteModel
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ΚΕΦΑΛΑΙΟ 6 ο lr.readLine()
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package md; ΚΕΦΑΛΑΙΟ 6 ο i
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ΚΕΦΑΛΑΙΟ 6 ο Στο παρ
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currentPhase = Phase.laserAndMoveme
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ΚΕΦΑΛΑΙΟ 6 ο Η συνάρ
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} } Particle p = (Particle) iter.ne
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ΚΕΦΑΛΑΙΟ 6 ο { if (cnt_tim
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} } Thread.sleep(1000); continue; }
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} public static final double h = 6.
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ΚΕΦΑΛΑΙΟ 6 ο distance επ
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Η παραπάνω συνάρτη
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ΚΕΦΑΛΑΙΟ 6 ο Χρησιµ
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ΚΕΦΑΛΑΙΟ 6 ο { for (int y
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} double result; for (int i = 0; i
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public synchronized double getMomen
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public void phaseChange(Phase phase
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{ return si/kilo; } public static d
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{ } ΚΕΦΑΛΑΙΟ 6 ο appendInf
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uttonPause.addSelectionListener(new
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itemDropDown.setText("Switch to pha
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ΚΕΦΑΛΑΙΟ 6 ο params.laser.
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} ΚΕΦΑΛΑΙΟ 6 ο setDouble(t
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ΚΕΦΑΛΑΙΟ 6 ο setDouble(tex
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"Time Steps", // X-Axis label "Ener
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6.4.14 Κλάση DrawComposite Κ
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} laserRect.x = getScreenX(0) - get
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ΚΕΦΑΛΑΙΟ 6 ο • Να µη
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ΚΕΦΑΛΑΙΟ 6 ο Στην συ
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Πλήκτρο διαδρασης S
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• Καρτέλα εισαγωγή
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ΚΕΦΑΛΑΙΟ 6 ο διαχωρ
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6.6 Χρόνοι λύσης υπο
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6.7 Βιβλιογραφικές α
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ΠΕΙΡΑΜΑΤΙΚΗ ΠΡΟΣΕΓ
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ΚΕΦΑΛΑΙΟ 8 ο Με την
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ΚΕΦΑΛΑΙΟ 8 ο Η ταχύτ
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ΚΕΦΑΛΑΙΟ 8 ο έχει τα
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ΚΕΦΑΛΑΙΟ 8 ο Προχωρ
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� Πυκνότητα Εντάσε
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� Απεικόνιση χρονο
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� Απεικόνιση χρονο
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ΚΕΦΑΛΑΙΟ 8 ο αρκετά
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ΚΕΦΑΛΑΙΟ 8 ο • Απόδ
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� Πυκνότητα ενέργε
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ΚΕΦΑΛΑΙΟ 8 ο Προκει
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Σχήµα 8.15: Πειραµατι
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8.4 ∆ιερεύνηση θερµ
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ΚΕΦΑΛΑΙΟ 8 ο Σχήµα 8.
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• Για πυκνότητα εν
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ΚΕΦΑΛΑΙΟ 8 ο Σχήµα 8.
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ΚΕΦΑΛΑΙΟ 8 ο περιοχ
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8.6 Βιβλιογραφικές α
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ΣΥΜΠΕΡΑΣΜΑΤΑ 342 • Σ
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ΣΥΜΠΕΡΑΣΜΑΤΑ 344 περ
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ΣΥΜΠΕΡΑΣΜΑΤΑ 346 δυν
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ΟΝΟΜΑΤΟΛΟΓΙΑ i Μονα
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ΟΝΟΜΑΤΟΛΟΓΙΑ new a Νέ
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ΚΑΤΑΛΟΓΟΣ ΣΧΗΜΑΤΩ
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ΚΑΤΑΛΟΓΟΣ ΠΙΝΑΚΩΝ
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ΣΥΝΤΟΜΟ ΒΙΟΓΡΑΦΙΚΟ
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