ABSTRACT
Recent topological band theory distinguishes electronic band insulators with respect to various symmetries and topological invariants, most commonly, the time reversal symmetry and the Z_{2} invariant. The interface of two topologically distinct insulators hosts a unique class of electronic states-the helical states, which shortcut the gapped bulk and exhibit spin-momentum locking. The magic and so far elusive property of the helical electrons, known as topological protection, prevents them from coherent backscattering as long as the underlying symmetry is preserved. Here we present an experiment that brings to light the strength of topological protection in one-dimensional helical edge states of a Z_{2} quantum spin-Hall insulator in HgTe. At low temperatures, we observe the dramatic impact of a tiny magnetic field, which results in an exponential increase of the resistance accompanied by giant mesoscopic fluctuations and a gap opening. This textbook Anderson localization scenario emerges only upon the time-reversal symmetry breaking, bringing the first direct evidence of the topological protection strength in helical edge states.
ABSTRACT
We investigate transport and shot noise in lateral normal-metal-3D topological-insulator-superconductor contacts, where the 3D topological insulator (TI) is based on Bi. In the normal state, the devices are in the elastic diffusive transport regime, as demonstrated by a nearly universal value of the shot noise Fano factor F_{N}≈1/3 in magnetic field and in a reference normal-metal contact. In the absence of magnetic field, we identify the Andreev reflection (AR) regime, which gives rise to the effective charge doubling in shot noise measurements. Surprisingly, the Fano factor F_{AR}≈0.22±0.02 is considerably reduced in the AR regime compared to F_{N}, in contrast to previous AR experiments in normal metals and semiconductors. We suggest that this effect is related to a finite thermal conduction of the proximized, superconducting TI owing to a residual density of states at low energies.
ABSTRACT
The control and measurement of local non-equilibrium configurations is of utmost importance in applications on energy harvesting, thermoelectrics and heat management in nano-electronics. This challenging task can be achieved with the help of various local probes, prominent examples including superconducting or quantum dot based tunnel junctions, classical and quantum resistors, and Raman thermography. Beyond time-averaged properties, valuable information can also be gained from spontaneous fluctuations of current (noise). From these perspective, however, a fundamental constraint is set by current conservation, which makes noise a characteristic of the whole conductor, rather than some part of it. Here we demonstrate how to remove this obstacle and pick up a local noise temperature of a current biased diffusive conductor with the help of a miniature noise probe. This approach is virtually noninvasive for the electronic energy distributions and extends primary local measurements towards strongly non-equilibrium regimes.
Subject(s)
Cellulitis/drug therapy , Lymphadenitis/drug therapy , Mouth/surgery , Osteomyelitis/drug therapy , Stomatognathic Diseases/drug therapy , Surgical Wound Infection/drug therapy , Acute Disease , Cellulitis/prevention & control , Combined Modality Therapy , Face , Humans , Lymphadenitis/prevention & control , Neck , Osteomyelitis/prevention & control , Stomatognathic Diseases/prevention & control , Surgical Wound Infection/prevention & controlSubject(s)
Fractures, Bone/therapy , Adult , Female , Fracture Fixation , Humans , Male , Middle AgedSubject(s)
Arm , Cartilage, Articular/innervation , Joints/innervation , Leg , Osteoarthritis/etiology , Sympathetic Nervous System/metabolism , Adenosine Triphosphate/deficiency , Atrophy/complications , Cartilage, Articular/metabolism , Chondroitin Sulfate Proteoglycans/deficiency , Humans , Joints/metabolism , Sympathetic Nervous System/pathologyABSTRACT
In the treatment of 38 patients with aseptic necrosis of the femur head, wrist bones and trophic ulcers the authors have successfully used the vascularization of tissues for the improvement of their feeding by means of transplantation of isolated vascular bundles.