Layered Growth of 3D Snowflake Subject to Membrane Effect and More than One Nucleation Center by Means of Cellular Automata

In this work, it is taken into account that in nature, due to pressure and temperature, water drops in general are either spherical or ellipsoidal. Thus, starting from a more general structure, a 3D elliptical surface (oblate spheroid) is constructed, which, by means of parameters, can be turned int...

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Published in	Mathematics (Basel) Vol. 13; no. 3; p. 433
Main Authors	Acosta, César Renán, Martín, Irma, Rivadeneyra, Gabriela
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.02.2025
Subjects	Approximation Cellular automata cellular automaton Cellular structure discrete Laplacian Flying-machines hexagonal lattice Hexagons Membranes Nucleation Oblate spheroids Parameters Pressure effects Robots snowflake Snowflakes Thermodynamics Water drops Water vapor
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Abstract	In this work, it is taken into account that in nature, due to pressure and temperature, water drops in general are either spherical or ellipsoidal. Thus, starting from a more general structure, a 3D elliptical surface (oblate spheroid) is constructed, which, by means of parameters, can be turned into a spherical shape. Hexagons are built on a rectangular horizontal plane, then this plane is passed through an elliptical surface at height h, which is determined by a parameter θ. As a result of the cutting of these surfaces, a curve and a plane are obtained, both horizontal ellipsoidal; if these hexagons are within the perimeter of the horizontal ellipse obtained as a function of θ, they are marked with an N, and if they are outside the perimeter, they are marked with an E. Several frozen nucleation centers are established, either in the same layer or in different planes, marking them with an F and their first eight neighbors with a B. The calculations based on a modified snowflake model are carried out tile by tile and layer by layer, governed by the thermodynamic factors α, β, and γ, leading to results that depend on the position of the nucleator, which can be symmetrical or asymmetrical for a snowflake with more than one nucleation center and an external surface formed by water vapor that functions as a membrane.
AbstractList	In this work, it is taken into account that in nature, due to pressure and temperature, water drops in general are either spherical or ellipsoidal. Thus, starting from a more general structure, a 3D elliptical surface (oblate spheroid) is constructed, which, by means of parameters, can be turned into a spherical shape. Hexagons are built on a rectangular horizontal plane, then this plane is passed through an elliptical surface at height h, which is determined by a parameter θ. As a result of the cutting of these surfaces, a curve and a plane are obtained, both horizontal ellipsoidal; if these hexagons are within the perimeter of the horizontal ellipse obtained as a function of θ, they are marked with an N, and if they are outside the perimeter, they are marked with an E. Several frozen nucleation centers are established, either in the same layer or in different planes, marking them with an F and their first eight neighbors with a B. The calculations based on a modified snowflake model are carried out tile by tile and layer by layer, governed by the thermodynamic factors α, β, and γ, leading to results that depend on the position of the nucleator, which can be symmetrical or asymmetrical for a snowflake with more than one nucleation center and an external surface formed by water vapor that functions as a membrane.
Audience	Academic
Author	Martín, Irma Rivadeneyra, Gabriela Acosta, César Renán
Author_xml	– sequence: 1 givenname: César Renán orcidid: 0000-0001-7135-7718 surname: Acosta fullname: Acosta, César Renán – sequence: 2 givenname: Irma surname: Martín fullname: Martín, Irma – sequence: 3 givenname: Gabriela surname: Rivadeneyra fullname: Rivadeneyra, Gabriela
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Cites_doi	10.1016/S0960-0779(04)00374-1 10.1016/j.jcp.2004.05.005 10.1016/j.chaos.2024.114997 10.1088/0034-4885/68/4/R03 10.34133/cbsystems.0109 10.1103/PhysRevE.93.023302 10.1016/S0097-8493(03)00039-6 10.1002/smll.202310700 10.1103/PhysRevE.79.011601 10.1021/jp500956w 10.1016/j.chaos.2021.111660 10.2991/jnmp.2005.12.4.7 10.1088/1361-6501/ad7e43
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SubjectTerms	Approximation Cellular automata cellular automaton Cellular structure discrete Laplacian Flying-machines hexagonal lattice Hexagons Membranes Nucleation Oblate spheroids Parameters Pressure effects Robots snowflake Snowflakes Thermodynamics Water drops Water vapor
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Title	Layered Growth of 3D Snowflake Subject to Membrane Effect and More than One Nucleation Center by Means of Cellular Automata
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