Related papers: Large Isolated Stripes on Short 18-leg $t$-$J$ Cylinders

Large Isolated Stripes on Short 18-leg $t$-$J$ Cylinders

URL: http://arxiv.org/abs/2512.15714v1
Date: Wed, 17 Dec 2025 18:59:56 GMT
Title: Large Isolated Stripes on Short 18-leg $t$-$J$ Cylinders
Authors: Tizian Blatz, Sebastian Paeckel, Ulrich Schollwöck, Fabian Grusdt, Annabelle Bohrdt,
Abstract summary: Spin-charge stripes belong to the most prominent low-temperature orders besides superconductivity in high-temperature superconductors.<n>By investigating the formation of long, isolated stripes, we offer a perspective complementary to typical finite-doping phase diagrams.<n>We reveal two separate regimes - a high-filling regime captured by a simplified squeezed-space model and a low-filling regime characterized by the structure of individual pairs of dopants.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Spin-charge stripes belong to the most prominent low-temperature orders besides superconductivity in high-temperature superconductors. This phase is particularly challenging to study numerically due to finite-size effects. By investigating the formation of long, isolated stripes, we offer a perspective complementary to typical finite-doping phase diagrams. We use the density-matrix renormalization group algorithm to extract the ground states of an 18-leg cylindrical strip geometry, making the diameter significantly wider than in previous works. This approach allows us to map out the range of possible stripe filling fractions on the electron versus hole-doped side. We find good agreement with established results, suggesting that the spread of filling fractions observed in the literature is governed by the physics of a single stripe. Taking a microscopic look at stripe formation, we reveal two separate regimes - a high-filling regime captured by a simplified squeezed-space model and a low-filling regime characterized by the structure of individual pairs of dopants. Thereby, we trace back the phenomenology of the striped phase to its microscopic constituents and highlight the different challenges for observing the two regimes in quantum simulation experiments.

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