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Physics, Complexity, and Climate

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Marine Ice Sheet Model
Delayed oscillator networks
Oslo fjord field excursion
Thermoelectric generator

Publications

Papers

Delay master stability of inertial oscillator networks
 R. Börner, P. Schultz, B. Ünzelmann, D. Wang, F. Hellmann, J. Kurths
Physical Review Research xx.yy (2020) arXiv Abstract Abstract: Time lags occur in a vast range of real-world dynamical systems due to finite reaction times or propagation speeds. Here we derive an analytical approach to determine the asymptotic stability of synchronous states in networks of coupled inertial oscillators with constant delay. Building on the master stability formalism, our technique provides necessary and sufficient delay master stability conditions. We apply it to two classes of potential future power grids, where processing delays in control dynamics will likely pose a challenge as renewable energies proliferate. Distinguishing between phase and frequency delay, our method offers an insight into how bifurcation points depend on the network topology of these system designs.

Delay master stability of intertial oscillator networks

R. Börner, P. Schultz, B. Ünzelmann, D. Wang, F. Hellmann, J. Kurths
Phys. Rev. Research xx.yy (2020)
 
Links:  PDF  arXiv  PRResearch
 

Abstract: Time lags occur in a vast range of real-world dynamical systems due to finite reaction times or propagation speeds. Here we derive an analytical approach to determine the asymptotic stability of synchronous states in networks of coupled inertial oscillators with constant delay. Building on the master stability formalism, our technique provides necessary and sufficient delay master stability conditions. We apply it to two classes of potential future power grids, where processing delays in control dynamics will likely pose a challenge as renewable energies proliferate. Distinguishing between phase and frequency delay, our method offers an insight into how bifurcation points depend on the network topology of these system designs.
 

Here goes your title

Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industrys standard dummy text ever since the 1500s.

Delay master stability of intertial oscillator networks

R. Börner, P. Schultz, B. Ünzelmann, D. Wang, F. Hellmann, J. Kurths
Phys. Rev. Research xx.yy (2020)
 
Links:  PDF  arXiv  PRResearch
 

Abstract: Time lags occur in a vast range of real-world dynamical systems due to finite reaction times or propagation speeds. Here we derive an analytical approach to determine the asymptotic stability of synchronous states in networks of coupled inertial oscillators with constant delay. Building on the master stability formalism, our technique provides necessary and sufficient delay master stability conditions. We apply it to two classes of potential future power grids, where processing delays in control dynamics will likely pose a challenge as renewable energies proliferate. Distinguishing between phase and frequency delay, our method offers an insight into how bifurcation points depend on the network topology of these system designs.
 

Here goes your title

Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industrys standard dummy text ever since the 1500s.

Thesis
Popular science articles
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