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Different fluorescence-based techniques are used to study the protein dynamics in living cells. These techniques include FRAP, FRET, and PET.
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An Analog Macroscopic Technique for Studying Molecular Hydrodynamic Processes in Dense Gases and Liquids
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Published on: December 4, 2017

Complex dynamics in nanosystems.

Xuan Ni1, Lei Ying, Ying-Cheng Lai

  • 1School of Electrical, Computer and Energy Engineering, Arizona State University, Tempe, Arizona 85287, USA.

Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics
|June 18, 2013
PubMed
Summary
This summary is machine-generated.

Multistability, complex dynamics, and transient chaos are common in high-dimensional nanoelectromechanical systems like silicon nanowires, impacting device operations.

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Area of Science:

  • Nonlinear dynamics
  • Nanoscale physics
  • Complex systems

Background:

  • Multistability is well-studied in low-dimensional systems.
  • High-dimensional multistability in physical systems remains an open question.
  • Nanoscale systems are increasingly prevalent in modern technology.

Purpose of the Study:

  • Investigate multistability in high-dimensional nanoscale systems.
  • Examine electrostatically driven silicon nanowires as a model system.
  • Understand the dynamics of nonlinear partial differential equations in this context.

Main Methods:

  • Developed a computationally efficient algorithm.
  • Solved nonlinear partial differential equations describing silicon nanowires.
  • Analyzed basin structures and transient chaos.

Main Results:

  • Multistability is a common phenomenon in this high-dimensional system.
  • Complex basin structures were observed.
  • Extensive transient chaos was identified as a cause for complex dynamics.

Conclusions:

  • High-dimensional multistability is achievable in nanoscale electromechanical systems.
  • Transient chaos significantly influences system dynamics and basin structures.
  • These findings have implications for the design and operation of nanoelectromechanical devices.