Open AccessPosted Content
Breathing modes of long Josephson junctions with phase-shifts
Reads0
Chats0
TLDR
In this article, the authors considered a spatially inhomogeneous sine-Gordon equation with a time-periodic drive and showed that an infinitely long Josephson junction with phase-shifts cannot be switched to a resistive state by microwave field with frequency close to the system's eigenfrequency, provided that the applied microwave amplitude is small enough.Abstract:
We consider a spatially inhomogeneous sine-Gordon equation with a time-periodic drive, modeling a microwave driven long Josephson junction with phase-shifts. Under appropriate conditions, Josephson junctions with phase-shifts can have a spatially nonuniform ground state. In recent reports, it is experimentally shown that a microwave drive can be used to measure the eigenfrequency of a junction's ground state. Such a microwave spectroscopy is based on the observation that when the frequency of the applied microwave is in the vicinity of the natural frequency of the ground state, the junction can switch to a resistive state, characterized by a non-zero junction voltage. It was conjectured that the process is analogous to the resonant phenomenon in a simple pendulum motion driven by a time periodic external force. In the case of long junctions with phase-shifts, it would be a resonance between the internal breathing mode of the ground state and the microwave field. Nonetheless, it was also reported that the microwave power needed to switch the junction into a resistive state depends on the magnitude of the eigenfrequency to be measured. Using multiple scale expansions, we show here that an infinitely long Josephson junction with phase-shifts cannot be switched to a resistive state by microwave field with frequency close to the system's eigenfrequency, provided that the applied microwave amplitude is small enough, which confirms the experimental observations. It is because higher harmonics with frequencies in the continuous spectrum are excited, in the form of continuous wave radiation. The presence of applied microwaves balances the nonlinear damping, creating a stable breather mode oscillation. We confirm our analytical results numerically.read more
Citations
More filters
Journal ArticleDOI
Soliton and Breather Splitting on Star Graphs from Tricrystal Josephson Junctions
TL;DR: In this paper, the authors consider the interactions of traveling localized wave solutions with a vertex in a star graph domain that describes multiple Josephson junctions with a common/branch point (i.e., tricrystal junctions).
Journal ArticleDOI
Localized modes in parametrically driven long Josephson junctions with a double-well potential
Zamin Gul,Amir R. Ali,Arif Ullah +2 more
Journal ArticleDOI
Decay of bound states in a sine-Gordon equation with double-well potentials
TL;DR: In this article, a spatially inhomogeneous sine-Gordon equation with a double-well potential was considered, and the interactions of symmetric and antisymmetric bound states in the system were discussed.
Journal ArticleDOI
Localized modes in a variety of driven long Josephson junctions with phase shifts
Zamin Gul,Amir R. Ali +1 more
TL;DR: In this paper, the authors studied the localized modes in long Josephson junctions with phase shift formations, so-called $$0{-}\pi {-}0$$¯¯ and $$ 0{-}kappa $$ 0.
Journal ArticleDOI
Dynamics of ac-driven sine-Gordon equation for long Josephson junctions with fast varying perturbation
TL;DR: In this paper, an inhomogeneous sine-Gordon equation is used to depict the dynamics of long Josephson junctions with phase discontinuities, and the critical facet length is analyzed for 0 − π − 0 junction above which the ground state is non-uniform.
References
More filters
Journal Article
Superconducting system with weak coupling to the current in the ground state
TL;DR: In this article, it was shown that if the tunneling through the magnetic impurities is large enough, then the ground state of such a system is a state with a current and a magnetic flux.
Journal ArticleDOI
Ordering and manipulation of the magnetic moments in large-scale superconducting pi-loop arrays.
Hans Hilgenkamp,Ariando,H.J.H. Smilde,Dave H.A. Blank,Guus Rijnders,Horst Rogalla,John R. Kirtley,Chang C. Tsuei +7 more
TL;DR: The realization of large-scale coupled π-loop arrays based on YBa2Cu3O7-Au-Nb Josephson contacts are reported, of interest as model systems for studying magnetic phenomena—including frustration effects—in Ising antiferromagnets and for designing quantum computers based on flux-qubits with viable quantum error correction capabilities.
Journal ArticleDOI
Flip-Flopping Fractional Flux Quanta
Thomas Ortlepp,Ariando,O. Mielke,C.J.M. Verwijs,K. F. K. Foo,Horst Rogalla,F.H. Uhlmann,Hans Hilgenkamp +7 more
TL;DR: This work has incorporated π phase–biased superconducting rings in a logic circuit, a flip-flop, in which the fractional flux polarity is controllably toggled by applying single flux quantum pulses at the input channel.
Journal ArticleDOI
On possibility of the spontaneous magnetic flux in a Josephson junction containing magnetic impurities
TL;DR: In this article, conditions were studied under which the phase difference between superconductors in the state with energy minimum is equal to π (such a junction we call π-junction), and conditions were found under which in such a system there is a spontaneous vortex with the centre at the boundary between the parts 1 and 2 and magnetic flux associated with this vortex.
Journal ArticleDOI
Dynamics of semifluxons in Nb long Josephson 0-pi junctions.
TL;DR: Using experimentally long Josephson 0-pi junctions fabricated using conventional Nb-AlOx-Nb technology, this work shows that by using a pair of current injectors one can create an arbitrary discontinuity of the Josephson phase and, in particular, a pi discontinuity, just as in d-wave/s-wave or in d -wave/d-wave junctions, and study fractional Josephson vortices which spontaneously appear.