Lower dimensional system

Metzger RM (1991) Prospects for truly unimolecular devices. In Metzger RM, Day P, Papavassiliou GC (eds) Lower-dimensional systems and molecular electronics. NATO ASI Series B248. Plenum press, New York, pp 659-666... 

O. Wrighton, M. S. Proceedings of NATO ASI "Lower-Dimensional Systems and Molecular Electronics" Spetses, Greece, 1989, R. M. Metzger,... 

J. Paloheimo, E. Punkka, H. Stubb, P. Kuivalainen in Lower Dimensional Systems and Molecular Devices, Proceedings of NATO ASI, Spetes, Greece, ed. by R.M. Metzger (Plenum Press, New York 1989)... 

D. O. Cowan, J. A. Fortkort, and R. M. Metzger, in Lower-Dimensional Systems and Molecular Electronics, R. M. Metzger, P. Day, and G. C. Papavassiliou, eds., NATO Advanced Science Institutes Series B248, Plenum Press New York, 1991,... 

R. M. Metzger, Semiconductors to superconductors Organic lower-dimensional systems, in Encyclopedia of Applied Physics Vol. 17, VCH New York, 1996, pp. 215-239. 

Achievements in the field of organic conductors and superconductors have promoted the development of the field of molecular electronics as well. The latter is a nascent field of research, suggesting the use of organic molecules with the tunability of their electronic structure, instead of conventional inorganic microelectronics. It has been suggested that molecular electronic devices could utilize a variety of optoelectronic and conductivity phenomena of organic substances at the nanometer level. Whereas the conductivity and superconductivity of organic metals is a result of bulk electrical behavior of lower-dimensional systems, molecular electronics deals... 

In other words, (4.1) is dissipative. Unfortunately, this argument does not show that S-l-S"=iX/ has a limiting value, which would allow the reduction of (4.1) to a lower-dimensional system. This means that we are forced to deal with the full system (4.1). 

Shimidzu, T. In Lower Dimensional Systems and Molecular Electronics. Metzger, R.M. (Ed.). Plenum Press, New York, 1991 653. 

Crisis can be seen both in dissipative and Hamiltonian systems. However, most of the studies so far are limited to lower dimensional systems. In these systems, crisis takes place when we scan one of the parameters of the system. On the other hand, for systems of multiple degrees of freedom, some degrees of freedom would play the role of these parameters in the sense that movement of these degrees of freedom triggers crisis. Then, depending on the movement of these variables, the system would dynamically go back and forth crossing the crisis. In this sense, crisis in systems of multiple degrees of freedom are dynamical compared to lower dimensional cases where they are static. 

Two definitions of ME exist in a broader sense, (sensu law) ME includes the study of all molecule-based electronic processes in lower-dimensional systems ... 

Proceedings of a NATO Advanced Study Institute on Lower-Dimensional Systems and Molecular Electronics, held June 12-23, 1989, at Hotel Spetses,... 

NATO Advanced Study Institute on Lower-Dimensional Systems and... 

Molecular Electronics (1989 Hotel Spetses, Spetses Island, Greece) Lower-dimensional systems and molecular electronics / edited by Robert M. Metzger, Peter Day, and George C. Papavass11iou. 

This volume represents the written account of the NATO Advanced Study Institute "Lower-Dimensional Systems and Molecular Electronics" held at Hotel Spetses, Spetses Island, Greece from 12 June to 23 June 1989. The goal of the Institute was to demonstrate the breadth of chemical and physical knowledge that has been acquired in the last 20 years in inorganic and organic crystals, polymers, and thin films, which exhibit phenomena of reduced dimensionality. 

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