Phase Diagram Zero Eigenvalue Complete Phase Diagram Found U

Phase plane and eigenvalue method The phase diagram in case 1 where ( ) a c − + µ ρ Theoretical phase diagrams at zero fields in the (a) (α 1 , α 2 ) and

Phase diagram at non-zero θ (p = 3, N = 80). We plotted the local

Schematic phase diagram of the model (1) for ∆ = −1 + δ with |δ The zero-sets in the phase diagram 2d phase zero algorithm based on the optimization of the initial value

A schematic phase diagram, together with the low-energy effective

(a) phase diagram of the number of zero energy modes (|e| = 0) drawn inPhase portrait with one zero eigenvalue A display showing a comparison between zero-phase and minimum phaseThe phase diagram in case 2 where ( ) a c − + µ ρ.

Zero-temperature phase diagram for h 0λ = uPhase diagram at non-zero θ (p = 3, n = 80). we plotted the local Schematic zero-temperature phase diagram. schematic of the conventionalSchematic phase diagram showing i0 against d both in pa units.

Phase diagram with initial values...

Complete phase diagram found using eigenvalue crossings. the lower linePhase eigenvalue portrait zero Phase diagram at σ x = 1.0, τ c = 0.01: a-d = 0.9, τ c = 0.05; b-dPhase diagram for the behavior of the eigenvalues of the matrix l for n.

Zero-temperature phase diagrams under in-and out-ofplane fields. aPhase diagrams including effects of both discretization (w = 0) and A the phase diagram with p = 0.3 and initial value (x 0 , y 0 ) = (2Phase diagram of equation 1 and the corresponding lower dimensional.

Schematic zero-temperature dynamical phase diagram of the model of ref

Schematic zero temperature phase diagram showing one possible scenarioPhase pattern of the eigenvalue problem (6), (7). (a) phase diagram of zero energy level of model (3) with m z /t = 0 andZero temperature phase diagram in the plane j − jz. (a) for ising model.

Phase diagram for the behavior of the eigenvalues of the matrix l inMatrix eigenvalues purely gases Zero phaseZero-temperature phase diagram of the system described by equation (1.

Phase diagram when x = 0.

(a) phase plot of zero-dynamics for x 1 = π/2. (b) boundary ∂g 0 for µEffect of continuously varying a phase between zero and π on the first Zero-temperature phase diagram of a 2d array of coupled, finite, 1d.

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