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Journal articles on the topic 'Processes'

Author: Grafiati
Published: 4 June 2021
Last updated: 31 August 2024

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1

J. Al-Husseini, Sawasn, Ibrahim M. Elbeltagi, and Talib A. Dosa. "Knowledge Sharing Processes as Critical Enablers for Process Innovation." International Journal of Culture and History (EJournal) 1, no. 1 (2015): 33–38. http://dx.doi.org/10.18178/ijch.2015.1.1.006.

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2

Gelmar, Garcia-Vidal, Alexander Sanchez-Rodríguez, Rodobaldo Martinez-Vivar, and Reyner Perez-Campdesuner. "Thinking Processes as a Tool for Improving the Administrative Process." International Journal of Management Science and Business Administration 2, no. 7 (2015): 25–41. http://dx.doi.org/10.18775/ijmsba.1849-5664-5419.2014.27.1003.

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The aim of this paper is to design an organizational strategy for improving administrative processes of Yonyum Company. For that, a diagnosis of the current situation of the company was made in Yonyum Company. For collecting information from employees of the organization, an analytical “thought processes” tool was used as an essential tool of research. This research was taken to design a strategy for improving the administrative processes of Yonyum Company. The strategy developed for the company consists of several actions formulated inferring from the problems identified through the investigation.
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3

Rodolfo,, Muñoz Martiñon, Robles Ramírez Diana P., and Vanessa Zamudio Hidalgo. "Evaluation of the Process of Attention using the Simulation of Processes." International Journal of Trend in Scientific Research and Development Volume-1, Issue-5 (August 31, 2017): 75–78. http://dx.doi.org/10.31142/ijtsrd2231.

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4

马, 璇. "Square Processes of Stable Processes." Advances in Applied Mathematics 07, no. 01 (2018): 47–55. http://dx.doi.org/10.12677/aam.2018.71007.

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5

Okasha, Samir. "“Which processes are selection processes?”." Behavioral and Brain Sciences 24, no. 3 (June 2001): 548–49. http://dx.doi.org/10.1017/s0140525x01444165.

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I argue that population-level selection does not necessarily have to be invoked to explain the polymorphism at the MHC locus. I argue that the authors' attempt to model operant conditioning in Darwinian terms faces a serious problem. Depending on how many operant responses we take to comprise a sequence, different conclusions about whether or not evolution is occurring in an operant lineage will be reached.
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6

Balzer, Wolfgang, and Klaus Manhart. "Scientific Processes and Social Processes." Erkenntnis 79, S8 (December 24, 2013): 1393–412. http://dx.doi.org/10.1007/s10670-013-9574-9.

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7

MATSUMURA, Takashi, Motohiro SHIMADA, and Kazunari TERAMOTO. "Analysis of Cutting Processes on Machining Centers(Analytical advancement of machining process)." Proceedings of International Conference on Leading Edge Manufacturing in 21st century : LEM21 2005.3 (2005): 1093–98. http://dx.doi.org/10.1299/jsmelem.2005.3.1093.

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8

Depuis, Paul, Amarjit Budhiraja, and Rami Atar. "Processes." Annals of Probability 29, no. 3 (July 2001): 1404. http://dx.doi.org/10.1214/aop/1015345607.

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9

Deheuvels, Paul. "processes." Annals of Probability 28, no. 2 (April 2000): 909–45. http://dx.doi.org/10.1214/aop/1019160265.

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10

Yor, Marc, and Jim Pitman. "processes." Annals of Probability 26, no. 4 (October 1998): 1683–702. http://dx.doi.org/10.1214/aop/1022855878.

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11

Stout, Rowland. "Processes." Philosophy 72, no. 279 (January 1997): 19–27. http://dx.doi.org/10.1017/s0031819100056631.

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A natural picture to have of events and processes is of entities which extend through time and which have temporal parts, just as physical objects extend through space and have spatial parts. While accepting this picture of events, in this paper I want to present an alternative conception of processes as entities which, like physical objects, do not extend in time and do not have temporal parts, but rather persist in time. Processes and events belong to metaphysically distinct categories. Moreover the category of events is not the more basic of the two.
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12

Dahlhaus, Rainer. "processes." Annals of Statistics 28, no. 6 (December 2000): 1762–94. http://dx.doi.org/10.1214/aos/1015957480.

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13

Nobel, Andrew B. "processes." Annals of Statistics 27, no. 1 (March 1999): 262–73. http://dx.doi.org/10.1214/aos/1018031110.

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14

Leal, João, and Rikke Munck Petersen. "Processes." Sophia Journal 8, no. 1 (December 31, 2023): 15–17. http://dx.doi.org/10.24840/2183-8976_2023-0008_0001_4.

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There is a big gap between the abstraction of an idea and its concrete implementation. This gap is filled with processes that imply the taking of actions to help achieve a tangible result, and there is a myriad of ways these actions can follow through. Photographic and filmic methodologies shape work through the processes of doing informed by gestures in the photographic and filmic operations on site and in the later editing phase1 by which an understanding is changed into a story, an idea in a final visual and/or sequential form. The need for good ideas due to the growing challenges presented by climate changes, imposes serious thinking around actual ways of doing relevant contributions to help ‘heal a broken world’. Photographic and filmic work processes can support that purpose embedding specific site experience methodologies open to the passage of time and the changes it encompasses associated with the landscape we have inherited. Exploring a place or a landscape and working with what is found through movement: walking, driving, flying, the editing of footage, the study of photographs, films, or selected material, reveal changes to specific landscapes and possible readings, interpretations, and understandings of those changes. Such actions and processes have a long tradition in artistic practices transecting land art, landscape architecture and environmental studies.2 (...)
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15

Kauffman, Louis H. "Eigenforms, Discrete Processes and Quantum Processes." Journal of Physics: Conference Series 361 (May 10, 2012): 012034. http://dx.doi.org/10.1088/1742-6596/361/1/012034.

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16

Coculescu, Delia, and Ashkan Nikeghbali. "HAZARD PROCESSES AND MARTINGALE HAZARD PROCESSES." Mathematical Finance 22, no. 3 (December 5, 2010): 519–37. http://dx.doi.org/10.1111/j.1467-9965.2010.00471.x.

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17

Krishnan, Padmanabhan. "Deriving distributed processes from concurrent processes." Information and Software Technology 37, no. 10 (January 1995): 557–62. http://dx.doi.org/10.1016/0950-5849(95)90931-j.

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18

Belenkov, E. S., P. V. Prosuntsov, and S. V. Reznik. "Thermophysical processes models in composite workpieces processed by microwave radiation." IOP Conference Series: Materials Science and Engineering 683 (December 13, 2019): 012029. http://dx.doi.org/10.1088/1757-899x/683/1/012029.

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19

Yannaros, Nikos. "On Cox processes and gamma renewal processes." Journal of Applied Probability 25, no. 2 (June 1988): 423–27. http://dx.doi.org/10.2307/3214451.

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It is shown that the gamma distribution with shape parameter α can be obtained through a p-thinning for every 0 < p < 1, when 0 < α ≦ 1. In the case α > 1, the gamma distribution cannot be obtained through thinning. The class of renewal processes with gamma-distributed times between events is considered. It is shown that an ordinary gamma renewal process is a Cox process if and only if 0 < α ≦ 1. Necessary and sufficient conditions for delayed gamma renewal processes to be Cox are also given. Finally, a short description of the gamma renewal process as a Cox process is given.
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20

Kruzic, Andrew P. "Natural treatment processes and on-site processes." Water Environment Research 67, no. 4 (June 1995): 470–75. http://dx.doi.org/10.2175/106143095x133473.

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21

Møller, Jesper, and Frederic Paik Schoenberg. "Thinning spatial point processes into Poisson processes." Advances in Applied Probability 42, no. 2 (June 2010): 347–58. http://dx.doi.org/10.1239/aap/1275055232.

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In this paper we describe methods for randomly thinning certain classes of spatial point processes. In the case of a Markov point process, the proposed method involves a dependent thinning of a spatial birth-and-death process, where clans of ancestors associated with the original points are identified, and where we simulate backwards and forwards in order to obtain the thinned process. In the case of a Cox process, a simple independent thinning technique is proposed. In both cases, the thinning results in a Poisson process if and only if the true Papangelou conditional intensity is used, and, thus, can be used as a graphical exploratory tool for inspecting the goodness-of-fit of a spatial point process model. Several examples, including clustered and inhibitive point processes, are considered.
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22

Buchholz, Peter, and Miklós Telek. "Rational Processes Related to Communicating Markov Processes." Journal of Applied Probability 49, no. 1 (March 2012): 40–59. http://dx.doi.org/10.1239/jap/1331216833.

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We define a class of stochastic processes, denoted as marked rational arrival processes (MRAPs), which is an extension of matrix exponential distributions and rational arrival processes. Continuous-time Markov processes with labeled transitions are a subclass of this more general model class. New equivalence relations between processes are defined, and it is shown that these equivalence relations are natural extensions of strong and weak lumpability and the corresponding bisimulation relations that have been defined for Markov processes. If a general rational process is equivalent to a Markov process, it can be used in numerical analysis techniques instead of the Markov process. This observation allows one to apply MRAPs like Markov processes and since the new equivalence relations are more general than lumpability and bisimulation, it is sometimes possible to find smaller representations of given processes. Finally, we show that the equivalence is preserved by the composition of MRAPs and can therefore be exploited in compositional modeling.
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23

FRANZ, UWE. "CLASSICAL MARKOV PROCESSES FROM QUANTUM LÉVY PROCESSES." Infinite Dimensional Analysis, Quantum Probability and Related Topics 02, no. 01 (March 1999): 105–29. http://dx.doi.org/10.1142/s0219025799000060.

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We show how classical Markov processes can be obtained from quantum Lévy processes. It is shown that quantum Lévy processes are quantum Markov processes, and sufficient conditions for restrictions to subalgebras to remain quantum Markov processes are given. A classical Markov process (which has the same time-ordered moments as the quantum process in the vacuum state) exists whenever we can restrict to a commutative subalgebra without losing the quantum Markov property.8 Several examples, including the Azéma martingale, with explicit calculations are presented. In particular, the action of the generator of the classical Markov processes on polynomials or their moments are calculated using Hopf algebra duality.
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24

Böttcher, Björn, René L. Schilling, and Jian Wang. "Constructions of coupling processes for Lévy processes." Stochastic Processes and their Applications 121, no. 6 (June 2011): 1201–16. http://dx.doi.org/10.1016/j.spa.2011.02.007.

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25

Resnick, Sidney, and Gennady Samorodnitsky. "Point processes associated with stationary stable processes." Stochastic Processes and their Applications 114, no. 2 (December 2004): 191–209. http://dx.doi.org/10.1016/j.spa.2004.06.004.

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26

Møller, Jesper, and Frederic Paik Schoenberg. "Thinning spatial point processes into Poisson processes." Advances in Applied Probability 42, no. 02 (June 2010): 347–58. http://dx.doi.org/10.1017/s0001867800004092.

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In this paper we describe methods for randomly thinning certain classes of spatial point processes. In the case of a Markov point process, the proposed method involves a dependent thinning of a spatial birth-and-death process, where clans of ancestors associated with the original points are identified, and where we simulate backwards and forwards in order to obtain the thinned process. In the case of a Cox process, a simple independent thinning technique is proposed. In both cases, the thinning results in a Poisson process if and only if the true Papangelou conditional intensity is used, and, thus, can be used as a graphical exploratory tool for inspecting the goodness-of-fit of a spatial point process model. Several examples, including clustered and inhibitive point processes, are considered.
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27

Buchholz, Peter, and Miklós Telek. "Rational Processes Related to Communicating Markov Processes." Journal of Applied Probability 49, no. 01 (March 2012): 40–59. http://dx.doi.org/10.1017/s0021900200008858.

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We define a class of stochastic processes, denoted as marked rational arrival processes (MRAPs), which is an extension of matrix exponential distributions and rational arrival processes. Continuous-time Markov processes with labeled transitions are a subclass of this more general model class. New equivalence relations between processes are defined, and it is shown that these equivalence relations are natural extensions of strong and weak lumpability and the corresponding bisimulation relations that have been defined for Markov processes. If a general rational process is equivalent to a Markov process, it can be used in numerical analysis techniques instead of the Markov process. This observation allows one to apply MRAPs like Markov processes and since the new equivalence relations are more general than lumpability and bisimulation, it is sometimes possible to find smaller representations of given processes. Finally, we show that the equivalence is preserved by the composition of MRAPs and can therefore be exploited in compositional modeling.
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28

Yannaros, Nikos. "On Cox processes and gamma renewal processes." Journal of Applied Probability 25, no. 02 (June 1988): 423–27. http://dx.doi.org/10.1017/s0021900200041073.

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It is shown that the gamma distribution with shape parameter α can be obtained through a p-thinning for every 0 &lt; p &lt; 1, when 0 &lt; α ≦ 1. In the case α &gt; 1, the gamma distribution cannot be obtained through thinning. The class of renewal processes with gamma-distributed times between events is considered. It is shown that an ordinary gamma renewal process is a Cox process if and only if 0 &lt; α ≦ 1. Necessary and sufficient conditions for delayed gamma renewal processes to be Cox are also given. Finally, a short description of the gamma renewal process as a Cox process is given.
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29

Schoenberg, Frederic. "Transforming spatial point processes into Poisson processes." Stochastic Processes and their Applications 81, no. 2 (June 1999): 155–64. http://dx.doi.org/10.1016/s0304-4149(98)00098-2.

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30

Rota, Gian-Carlo. "Stationary random processes associated with point processes." Advances in Mathematics 57, no. 2 (August 1985): 208. http://dx.doi.org/10.1016/0001-8708(85)90061-1.

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31

Hu, Y., and D. Nualart. "Some Processes Associated with Fractional Bessel Processes." Journal of Theoretical Probability 18, no. 2 (April 2005): 377–97. http://dx.doi.org/10.1007/s10959-005-3508-7.

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32

Kobylych, K. V., and L. M. Sakhno. "Point processes subordinated to compound Poisson processes." Theory of Probability and Mathematical Statistics 94 (August 25, 2017): 89–96. http://dx.doi.org/10.1090/tpms/1011.

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33

Yu, Jia Yuan, Shie Mannor, and Nahum Shimkin. "Markov Decision Processes with Arbitrary Reward Processes." Mathematics of Operations Research 34, no. 3 (August 2009): 737–57. http://dx.doi.org/10.1287/moor.1090.0397.

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34

Lucas, A. M. "Processes of science and processes of learning." Studies in Science Education 18, no. 1 (January 1990): 172–77. http://dx.doi.org/10.1080/03057269008559989.

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35

Sagitov, S. M. "General branching processes: Convergence to irzhina processes." Journal of Mathematical Sciences 69, no. 4 (April 1994): 1199–206. http://dx.doi.org/10.1007/bf01249806.

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36

Mukhamedov, Farrukh, and Nurul Akma Supar. "On Marginal Processes of Quadratic Stochastic Processes." Bulletin of the Malaysian Mathematical Sciences Society 38, no. 3 (December 10, 2014): 1281–96. http://dx.doi.org/10.1007/s40840-014-0080-2.

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37

Amirkhanov, N. M., and Rinat K. Islamgaliev. "Relaxation Processes in Ultrafine-Grained Copper Processed by Severe Plastic Deformation." Defect and Diffusion Forum 156 (February 1998): 229–34. http://dx.doi.org/10.4028/www.scientific.net/ddf.156.229.

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38

Sklenicka, V., J. Dvorak, P. Kral, Z. Stonawska, and M. Svoboda. "Creep processes in pure aluminium processed by equal-channel angular pressing." Materials Science and Engineering: A 410-411 (November 2005): 408–12. http://dx.doi.org/10.1016/j.msea.2005.08.099.

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39

Kinouchi, Yuki, Masahiko Yoshino, Hiroyuki Miyasaka, Nayuta Minami, Tomoyuki Takahashi, and Noritsugu Umehara. "Nano Forming Process for Functional Surface(M^4 processes and micro-manufacturing for science)." Proceedings of International Conference on Leading Edge Manufacturing in 21st century : LEM21 2005.2 (2005): 849–54. http://dx.doi.org/10.1299/jsmelem.2005.2.849.

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40

Anděl, Martin. "Non-negative linear processes." Applications of Mathematics 36, no. 4 (1991): 277–83. http://dx.doi.org/10.21136/am.1991.104466.

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41

Yurov, V. M., E. N. Eremin, V. Ch Laurinas, and S. S. Kasimov. "Dissipative processes in tribology." Bulletin of the Karaganda University. "Physics" Series 94, no. 2 (June 28, 2019): 42–53. http://dx.doi.org/10.31489/2019ph2/42-53.

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42

Yeh, Hsiaw-Chan, Barry C. Arnold, and Christopher A. Robertson. "Pareto processes." Journal of Applied Probability 25, no. 2 (June 1988): 291–301. http://dx.doi.org/10.2307/3214437.

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An autoregressive process ARP(1) with Pareto-distributed inputs, analogous to those of Lawrance and Lewis (1977), (1980), is defined and its properties developed. It is shown that the stationary distributions are Pareto. Further, the maximum and minimum processes are asymptotically Weibull, and the ARP(1) process is shown to be closed under maximization or minimization when the number of terms is geometrically distributed. The ARP(1) process leads naturally to an extremal process in the sense of Lamperti (1964). Statistical inference for the ARP(1) process is developed. An absolutely continuous variant of the Pareto process is described.
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43

Messier, Russell. "Deposition Processes." MRS Bulletin 13, no. 12 (December 1988): 29–32. http://dx.doi.org/10.1557/s0883769400063661.

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My introduction in the November MRS BULLETIN to this two-part series on deposition processes discussed the extensive use of thin films in science and technology. That it takes two issues and nine articles to cover this topic — and by no means exhaustively — is testimony to the manifold ways thin films are prepared.If all deposition processes resulted in the same product, then such extensive coverage would be redundant and unnecessary. Thin films, however, cover a virtual infinity of free energy states — and related crystal structures, micro-structures, defects, defect densities, impurities, compositions, composition modulations, etc. — that are sensitive to the particular deposition process and its conditions. It is this richness of choice that makes thin film science and technology both exciting and, at times, frustrating.Along with the freedom to extensively vary thin film characteristics, resulting properties and applications comes the difficulty in understanding preparation-characterization-property relations in enough detail to control and reproduce deposition processes.The November articles covered molecular dynamics computer modeling of nucleation and growth processes, molecular beam epitaxy, organometallic vapor phase epitaxy, and chemical vapor deposition. This month's articles continue the sequence of ways to deposit films, the general direction being toward lower substrate temperatures. Plasmas, which offer both increased flexibility and complexity, are primarily considered. The last article covers thermal plasmas, not to control the vapor deposition but to melt powders which result in a multiple splat-quenched array of particles that form coatings important to industry.
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44

Bunshah, R. F., and C. V. Deshpandey. "Evaporation Processes." MRS Bulletin 13, no. 12 (December 1988): 33–39. http://dx.doi.org/10.1557/s0883769400063673.

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Physical vapor deposition (PVD) technology consists of the basic techniques of evaporation deposition and sputter deposition. PVD is used to deposit films and coatings or self-supported shapes such as sheet, foil, tubing, etc. The thickness of the deposits can vary from angstroms to millimeters.Applications range widely, from decorative to utilitarian and over significant segments of the engineering, chemical, nuclear, microelectronics, and related industries. They have been increasing rapidly because modern high technology demands multiple and often conflicting sets of properties from engineering materials, e.g., combination of two or more of the following: high temperature strength, impact strength, specific optical, electrical or magnetic properties, wear resistance, fabricability into complex shapes, biocompatibility, cost, etc. A single or monolithic material cannot meet such demands. The solution is a composite material, a core material and a coating each having the requisite properties to meet the specifications.This article will review evaporation-based deposition technologies, theory and mechanisms, processes, deposition of various types of materials, and also the evolution of the microstructure and its relationship to the properties of the deposits.The first evaporated thin films were probably prepared by Faraday in 1857 when he exploded metal wires in a vacuum. The deposition of thin metal films in vacuum by Joule heating was discovered in 1887 by Nahrwold and was used by Kundt in 1888 to measure refractive indices of such films. In the ensuing period, the work was primarily of academic interest, concerned with optical phenomena associated with thin layer of metals, research into kinetics and diffusion of gases, and gas-metal reactions.
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45

Cox, N. J., and A. D. Abrahams. "Hillslope Processes." Transactions of the Institute of British Geographers 12, no. 2 (1987): 249. http://dx.doi.org/10.2307/622536.

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46

Benenson, Frederick Charles. "Physiological Processes." American Biology Teacher 65, no. 3 (March 1, 2003): 222–25. http://dx.doi.org/10.2307/4451480.

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47

Csenki, A., and J. Medhi. "Stochastic Processes." Statistician 45, no. 3 (1996): 393. http://dx.doi.org/10.2307/2988486.

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48

Evans, Eric A., Kristin M. Evans, Ania Ulrich, and Scott Ellsworth. "Anaerobic Processes." Water Environment Research 83, no. 10 (January 1, 2011): 1285–332. http://dx.doi.org/10.2175//106143011x13075599869335.

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49

Reed, Brian E., Mark R. Matsumoto, Wei Lin, and Ronald Vaughan. "Physicochemical Processes." Water Environment Research 72, no. 6 (October 1, 2001): 350–515. http://dx.doi.org/10.2175/106143000x138418.

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50

Riffat, Rumana, Somchai Dararat, and Kannitha Krongthamchat. "Anaerobic Processes." Water Environment Research 72, no. 6 (October 1, 2001): 576–656. http://dx.doi.org/10.2175/106143000x138436.

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