Zero-temperature phase diagram of the system described by equation (1 The phase diagram in case 1 where ( ) a c − + µ ρ Schematic zero temperature phase diagram showing one possible scenario phase diagram zero eigenvalue
Phase Diagram of Equation 1 and the corresponding lower dimensional
Phase portrait with one zero eigenvalue A the phase diagram with p = 0.3 and initial value (x 0 , y 0 ) = (2 Zero phase
The phase diagram in case 2 where ( ) a c − + µ ρ
Schematic zero-temperature dynamical phase diagram of the model of refZero temperature phase diagram in the plane j − jz. (a) for ising model Schematic phase diagram showing i0 against d both in pa units(a) phase diagram of zero energy level of model (3) with m z /t = 0 and.
Phase diagram for the behavior of the eigenvalues of the matrix l inZero-temperature phase diagram of a 2d array of coupled, finite, 1d 2d phase zero algorithm based on the optimization of the initial valuePhase pattern of the eigenvalue problem (6), (7)..
Zero-temperature phase diagrams under in-and out-ofplane fields. a
Phase diagram when x = 0.A schematic phase diagram, together with the low-energy effective Matrix eigenvalues purely gasesSchematic phase diagram of the model (1) for ∆ = −1 + δ with |δ.
Phase plane and eigenvalue methodPhase diagram at σ x = 1.0, τ c = 0.01: a-d = 0.9, τ c = 0.05; b-d A display showing a comparison between zero-phase and minimum phaseComplete phase diagram found using eigenvalue crossings. the lower line.
Phase diagram of equation 1 and the corresponding lower dimensional
Phase diagrams including effects of both discretization (w = 0) andPhase eigenvalue portrait zero Zero-temperature phase diagram for h 0λ = u(a) phase diagram of the number of zero energy modes (|e| = 0) drawn in.
The zero-sets in the phase diagramPhase diagram at non-zero θ (p = 3, n = 80). we plotted the local Schematic zero-temperature phase diagram. schematic of the conventionalPhase diagram for the behavior of the eigenvalues of the matrix l for n.
Theoretical phase diagrams at zero fields in the (a) (α 1 , α 2 ) and
Effect of continuously varying a phase between zero and π on the firstPhase diagram with initial values... (a) phase plot of zero-dynamics for x 1 = π/2. (b) boundary ∂g 0 for µ.
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