School of Science and Engineering of Mathematics and Physics, Anhui University of Technology, Maanshan, Anhui 243002, China.
Kavli Institute for Theoretical Sciences and CAS Center for Excellence in Topological Quantum Computation, University of Chinese Academy of Sciences, Beijing 100190, China.
Phys Rev Lett. 2018 Jun 8;120(23):235701. doi: 10.1103/PhysRevLett.120.235701.
Surface critical behavior (SCB) refers to the singularities of physical quantities on the surface at the bulk phase transition. It is closely related to and even richer than the bulk critical behavior. In this work, we show that three types of SCB universality are realized in the dimerized Heisenberg models at the (2+1)-dimensional O(3) quantum critical points by engineering the surface configurations. The ordinary transition happens if the surface is gapped in the bulk disordered phase, while the gapless surface state generally leads to the multicritical special transition, even though the latter is precluded in classical phase transitions because the surface is in the lower critical dimension. An extraordinary transition is induced by the ferrimagnetic order on the surface of the staggered Heisenberg model, in which the surface critical exponents violate the results of the scaling theory and thus seriously challenge our current understanding of extraordinary transitions.
表面临界行为(SCB)是指体相转变时表面物理量的奇异性。它与体相临界行为密切相关,甚至更加丰富。在这项工作中,我们通过设计表面结构,展示了在(2+1)维 O(3)量子临界点的二聚化海森堡模型中实现了三种类型的 SCB 普遍性。如果体相中表面存在能隙,则会发生普通相变,而无能隙的表面态通常会导致多临界特殊相变,尽管后者在经典相变中是被排除的,因为表面处于较低的临界维度。交错海森堡模型表面的反铁磁序会引起非凡的转变,其中表面临界指数违反了标度理论的结果,因此严重挑战了我们对非凡转变的现有理解。