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Transition metal dichalcogenides are semiconducting materials in which optical properties are governed by Coulomb-bound electron-hole pairs, called excitons. Here, the authors investigate the different excitonic properties of monolayer, bilayer, and trilayer MoS 2, revealing the existence of interlayer excitons in the last two cases. The paper presents both theoretical and experimental studies.
DFT calculations of absorption are underpinned by reflectivity measurements, at temperatures from 4 to 300 K, on high-quality samples encapsulated in hexagonal boron nitride (hBN). Gerber et al.
Floquet engineering offers exhilarating opportunities for controlling the dynamics of quantum many body systems and realizing new nonequilibrium phases of matter. However, generic interacting Floquet systems tend to heat up due to energy absorption from the drive, washing away the desired behavior. In this work, the authors characterize the steady states of an interacting electronic system, coupled to a phonon heat bath. They determine the regimes where the system-bath coupling stabilizes Floquet-insulator-like states, an important prerequisite for realizing topological states through Floquet engineering. Seetharam et al. The quantum Ising chain in a transverse magnetic field is t h e paradigm of a quantum phase transition, displaying universal quantum criticality at low temperatures. Insights from this model have informed studies of quantum criticality in numerous modern correlated-electron materials.
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There have been a number of experimental studies of the quantum Ising chain, most notably in the material CoNb 2O 6. It has recently become clear that there was a surprising discrepancy between the observations: the energy gap in the quantum disordered regime as measured by nuclear magnetic resonance was approximately twice that measured by other methods. Here, the authors show via careful analysis of the low-temperature excitations that this is not a discrepancy, rather, it is in fact to be expected from the subtle interactions between the excitations. Although the underlying spin excitations are bosonic, their interactions transmute them into fermions, and this is a key ingredient in understanding the experiments. Julia Steinberg, N. Armitage, Fabian H. Essler, and Subir Sachdev.
When graphene is aligned on top of hBN and subjected to a magnetic field, ‘cloning’ of Dirac fermions takes place each time rational values of flux quanta thread the superlattice unit cell. Here, the authors use high-field magnetotransport up to 35 T to address the emergence of insulating replica states in a 15-nm graphene/hBN superlattice.
An analysis in the framework of Landau quantization of the replica particles in an effective magnetic field allows us to determine their energy-momentum dispersion, which is renormalized compared with the original electron states. Pezzini et al.
Like all topologically nontrivial bands, the recently discovered fragile topological states cannot be described with symmetric localized basis functions. Unlike the well-understood “stable” topological phases, fragile ones have a localized description in the presence of additional trivial orbitals. Here, the authors explore the properties of fragile topological bands, focusing on a family of models on a triangular lattice. The authors show how nonabelian Berry phases can be used to diagnose fragile topology. They also explore how fragile topology manifests itself in the entanglement spectrum. Barry Bradlyn, Zhijun Wang, Jennifer Cano, and B. Andrei Bernevig.
Standing spin waves in thin films with a tiny periodic surface modulation are quantized in such a way that a multiple of their wavelength fits into one modulation period. This paper tackles the question how these film modes evolve into modes in a one-dimensional magnonic crystal consisting of periodic individual wire structures. By sequentially increasing the surface modulation and subsequent dynamic characterization of the same sample, simple transition rules are found connecting the modes of both systems with one another. Langer et al.
Ultraslow spin dynamics represent a key characteristic of quantum matter. Investigating a prototypical quantum material ⎯ the putative spin-triplet superconductor UGe 2 ⎯ the authors demonstrate that the novel Modulated IntEnsity by Zero Effort (MIEZE) neutron spectroscopy technique with ultrahigh energy resolution of better than 1 μeV allows to disentangle spectroscopically the complex low-energy behavior of quantum states. They observe spin fluctuations with a dual nature arising from localized 5 f electrons that are hybridized with the conduction electrons consistent with spin-triplet superconductivity. The study outlines a general recipe of how the advances enabled by the MIEZE technique can be used to shed light on novel quantum matter states.
Haslbeck et al. Non-Hermiticity makes possible novel topological phenomena, which are notallowed in Hermitian systems. The authors show that topologically nontrivial band degeneracies can appear as exceptional surfaces in non-Hermitian systems with parity–time and parity–particle-hole symmetries. It is shown that when parity–time or parity–particle-hole symmetry is present, d-dimensional non-Hermitian systems can have ( d − 1 )-dimensional exceptional surfaces. This work suggests new topological phases with nodal band structures protected by non-Hermitian topology and symmetry.
Ryo Okugawa and Takehito Yokoyama. Nicole Yunger Halpern, Christopher David White, Sarang Gopalakrishnan, and Gil Refael Jan Carl Budich, Johan Carlstrom, Flore K. Kunst, and Emil J. Bergholtz Ryo Okugawa and Takehito Yokoyama Barry Bradlyn, Zhijun Wang, Jennifer Cano, and B.Andrei Bernevig Xu Yang, Caspar H. Van der Wal, and Bart J. Langer et al. Alexander Mook, Jurgen Henk, and Ingrid Mertig Sahinur Reja, H.A.
Fertig, and L. Brey Marc Serra-Garcia, Roman Susstrunk, and Sebastian D. Huber HengChuang Yin et al. Deepika Jhajhria, Nilamani Behera, Dinesh K. Pandya, and Sujeet Chaudhary B.
Freelon et al. Linlin An et al. Haslbeck et al. Wang, Man-Hong Yung, and X.R.