The hysteresis loops pinched in the v-i origin belong to well-known fingerprints of memristive elements driven by bipolar periodical signals. Some element properties follow from the loop behavior in the close neighborhood of the origin. The paper analyzes this behavior of the memristive elements that produce steady-state hysteresis loops under harmonic excitation. It is shown that there is a connection between the frequency content of the state variable waveform and the type of the loop being pinched
poster abstractThe memristor, postulated in the 1970’s, was recently realized in a tita-nium dioxide...
Pinched hysteresis loops (PHLs) can be clockwise, counter-clockwise, self-crossing and non-self-cros...
While it is widely used to represent hysteresis phenomena with unidirectional-oriented loops, we stu...
The hysteresis loops pinched in the v-i origin belong to well-known fingerprints of memristive eleme...
The classical fingerprint of the ideal memristor with differentiable constitutive relation has recen...
A special subset of two-terminal elements providing pinched hysteresis loops in the voltage-current ...
The memory elements, memristor being the best known of them, driven by a periodical waveform exhibit...
Gradual disappearance of hysteresis with increasing frequency of the exciting signal is considered a...
This article investigates the frequency-related fingerprints of the meminductor/capacitors and their...
Memristors have pinched hysteresis loops in the V-I plane. Ideal memristors are everywhere non-linea...
In this study, a graphical modelling approach of the pinched hysteresis loops exhibited by memristor...
A significant event happened for electrical engineering in 2008, when researchers at HP Labs announc...
Being promising elements for neuromorphic computation, memristive devices have been often described ...
Abstract—We investigate the Fourier transform of the current through a memristor when the applied-vo...
Similarly to inorganic memristors, the organic memristive devices reveal a variation of the hysteres...
poster abstractThe memristor, postulated in the 1970’s, was recently realized in a tita-nium dioxide...
Pinched hysteresis loops (PHLs) can be clockwise, counter-clockwise, self-crossing and non-self-cros...
While it is widely used to represent hysteresis phenomena with unidirectional-oriented loops, we stu...
The hysteresis loops pinched in the v-i origin belong to well-known fingerprints of memristive eleme...
The classical fingerprint of the ideal memristor with differentiable constitutive relation has recen...
A special subset of two-terminal elements providing pinched hysteresis loops in the voltage-current ...
The memory elements, memristor being the best known of them, driven by a periodical waveform exhibit...
Gradual disappearance of hysteresis with increasing frequency of the exciting signal is considered a...
This article investigates the frequency-related fingerprints of the meminductor/capacitors and their...
Memristors have pinched hysteresis loops in the V-I plane. Ideal memristors are everywhere non-linea...
In this study, a graphical modelling approach of the pinched hysteresis loops exhibited by memristor...
A significant event happened for electrical engineering in 2008, when researchers at HP Labs announc...
Being promising elements for neuromorphic computation, memristive devices have been often described ...
Abstract—We investigate the Fourier transform of the current through a memristor when the applied-vo...
Similarly to inorganic memristors, the organic memristive devices reveal a variation of the hysteres...
poster abstractThe memristor, postulated in the 1970’s, was recently realized in a tita-nium dioxide...
Pinched hysteresis loops (PHLs) can be clockwise, counter-clockwise, self-crossing and non-self-cros...
While it is widely used to represent hysteresis phenomena with unidirectional-oriented loops, we stu...