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Observation of well-defined quasi-particle over a wide energy range in quasi-2D system

We report the observation by angle-resolved photoemission spectroscopy measurements of a highly anisotropic Dirac-cone structure in high quality SrMnBi2 crystals. We reveal a well-defined sharp quasi-particle, linearly dispersive with $v_{F_1}/v_{F_2}\sim$ 5--6, forming a hole-like anisotropic Dirac-cone. The density of states for the cone remains linear up to as high as ~650 meV of binding energy. The scattering rate of the quasi-particle (QP) increases linearly as function of binding energy, indicating a non-Fermi-Liquid behavior. Our results suggest the existence of a dilute two-dimensional electron gas system in this three-dimensional material.

preprint2013arXivOpen access
L. -L. JiaZ. -H. LiuY. -P. CaiT. QianX. -P. WangH. MiaoP. RichardY. -G. ZhaoY. LiM. ShiH. DingD. -M. WangJ. -B. HeG. -F. ChenS. -C. Wang
cond-mat.str-el
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Open access15 authors1 topic
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L. -L. JiaZ. -H. LiuY. -P. CaiT. QianX. -P. WangH. MiaoP. RichardY. -G. ZhaoY. LiM. ShiH. DingD. -M. WangJ. -B. HeG. -F. ChenS. -C. Wang

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