Serguei Tcheremchantsev scite author profile

We develop a general method to bound the spreading of an entire wavepacket under Schrödinger dynamics from above. This method derives upper bounds on time-averaged moments of the position operator from lower bounds on norms of transfer matrices at complex energies. This general result is applied to the Fibonacci operator. We find that at sufficiently large coupling, all transport exponents take values strictly between zero and one. This is the first rigorous result on anomalous transport. For quasi-periodic potentials associated with trigonometric polynomials, we prove that all lower transport exponents and, under a weak assumption on the frequency, all upper transport exponents vanish for all phases if the Lyapunov exponent is uniformly bounded away from zero. By a well-known result of Herman, this assumption always holds at sufficiently large coupling. For the particular case of the almost Mathieu operator, our result applies for coupling greater than two.

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Power-Law Bounds on Transfer Matrices and Quantum Dynamics in One Dimension

Damanik¹,

Tcheremchantsev²

2003

Communications in Mathematical Physics

126

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The Fractal Dimension of the Spectrum of the Fibonacci Hamiltonian

Damanik

Embree

Gorodetski

et al. 2008

Commun. Math. Phys.

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Abstract. We study the spectrum of the Fibonacci Hamiltonian and prove upper and lower bounds for its fractal dimension in the large coupling regime. These bounds show that as λ → ∞, dim(σ(H λ )) · log λ converges to an explicit constant (≈ 0.88137). We also discuss consequences of these results for the rate of propagation of a wavepacket that evolves according to Schrödinger dynamics generated by the Fibonacci Hamiltonian.

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Transfer matrices and transport for Schrödinger operators

Germinet¹,

Kiselev²,

Tcheremchantsev³

2004

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