Solid H_(2)S as the precursor for H_(3)S with incredible superconducting properties under high pressure,has recently attracted extensive attention.Here in this work,we propose two new phases of H_(2)S with P42/n and I...Solid H_(2)S as the precursor for H_(3)S with incredible superconducting properties under high pressure,has recently attracted extensive attention.Here in this work,we propose two new phases of H_(2)S with P42/n and I41/a lattice symmetries in a pressure range of 0 GPa–30 GPa through first-principles structural searches,which complement the phase transition sequence.Further an ab initio molecular dynamics simulation confirms that the molecular phase P2/c of H_(2)S is gradually dissociated with the pressure increasing and reconstructs into a new P2_(1)/m structure at 160 GPa,exhibiting the superconductivity with Tc of 82.5 K.Our results may provide a guidance for the theoretical study of low-temperature superconducting phase of H_(2)S.展开更多
Recently,room-temperature superconductivity has been reported in a nitrogen-doped lutetium hydride at near-ambient pressure[Dasenbrock-Gammon et al.,Nature 615,244(2023)].The superconducting properties might arise fro...Recently,room-temperature superconductivity has been reported in a nitrogen-doped lutetium hydride at near-ambient pressure[Dasenbrock-Gammon et al.,Nature 615,244(2023)].The superconducting properties might arise from Fm3m-LuH_(3)−δNε.Here,we systematically study the phase diagram of Lu–N–H at 1 GPa using first-principles calculations,and we do not find any thermodynamically stable ternary compounds.In addition,we calculate the dynamic stability and superconducting properties of N-doped Fm3m-LuH_(3) using the virtual crystal approximation(VCA)and the supercell method.The R3m-Lu_(2)H_(5)N predicted using the supercell method could be dynamically stable at 50 GPa,with a T_(c) of 27 K.According to the VCA method,the highest T_(c) is 22 K,obtained with 1%N-doping at 30 GPa.Moreover,the doping of nitrogen atoms into Fm3m-LuH_(3) slightly enhances T_(c),but raises the dynamically stable pressure.Our theoretical results show that the T_(c) values of N-doped LuH_(3) estimated using the Allen–Dynes-modified McMillan equation are much lower than room temperature.展开更多
Sulfur and lanthanum hydrides under compression display superconducting states with high observed critical temperatures.It has been recently demonstrated that carbonaceous sulfur hydride displays room temperature supe...Sulfur and lanthanum hydrides under compression display superconducting states with high observed critical temperatures.It has been recently demonstrated that carbonaceous sulfur hydride displays room temperature superconductivity.However,this phenomenon has been observed only at very high pressure.Here,we theoretically search for superconductors with very high critical temperatures,but at much lower pressures.We describe two of such sodalite-type clathrate hydrides,YbH6 and LuH6.These hydrides are metastable and are predicted to superconduct with T_(c)~145 K at 70 GPa and T_(c)~273 K at 100 GPa,respectively.This striking result is a consequence of the strong interrelationship between the f states present at the Fermi level,structural stability,and the final T_(c) value.For example,TmH6,with unfilled 4f orbitals,is stable at 50 GPa,but has a relatively low value of T_(c) of 25 K.The YbH6 and LuH6 compounds,with their filled f-shells,exhibit prominent phonon"softening",which leads to a strong electron-phonon coupling,and as a result,an increase in T_(c).展开更多
Surface leakage currents of AlGaN/GaN high electron mobility transistors are investigated by utihzing a circular double-gate structure to eliminate the influence of mesa leakage current.Different mechanisms are found ...Surface leakage currents of AlGaN/GaN high electron mobility transistors are investigated by utihzing a circular double-gate structure to eliminate the influence of mesa leakage current.Different mechanisms are found under various passivation conditions.The mechanism of the surface leakage current with Al_2O_3 passivation follows the two-dimensional variable range hopping model,while the mechanism of the surface leakage current with SiN passivation follows the Frenkel-Poole trap assisted emission.Two trap levels are found in the trap-assisted emission.One trap level has a barrier height of 0.22 eV for the high electric Geld,and the other trap level has a barrier height of 0.12 eV for the low electric field.展开更多
The effect of cold high pressure densification(CHPD)on anisotropy of the critical current density(Jc)in《in situ》single core binary and alloyed MgB2 tapes has been determined as a function of temperatures at 4.2 K,20...The effect of cold high pressure densification(CHPD)on anisotropy of the critical current density(Jc)in《in situ》single core binary and alloyed MgB2 tapes has been determined as a function of temperatures at 4.2 K,20 K and 25 K as well as at applied magnetic fields up to 19 T.The study includes binary and C4H6O5(malic acid)doped MgB2 tapes before and after CHPD.It is remarkable that the CHPD process not only improved the Jc values,in particular at the higher magnetic fields,but also decreased the anisotropy ratio,Г=JC^///JC^⊥In binary MgB2 tapes,the anisotropy factor F increases with higher aspect ratios,even after applying CHPD.In malic acid(C4H6O5)doped tapes,however,the application of CHPD leads only to small enhancements ofГ,even for higher aspect ratios.This is attributed to the higher carbon content in the MgB2 filaments,which in turn is a consequence of the reduced chemical reaction path in the densified filaments.At all applied field values,it was found that CHPD processed C4H6O5 doped tapes exhibit an almost isotropic behavior.This constitutes an advantage in view of industrial magnet applications using wires with square or slightly rectangular configuration.展开更多
Superconductivity in compressed sulfur hydride(H_(3)S)at above 200 K has attracted great interest in the study of hydrogen-based superconductors.However,the pressure required to stabilize H_(3)S is 150 GPa,posing sign...Superconductivity in compressed sulfur hydride(H_(3)S)at above 200 K has attracted great interest in the study of hydrogen-based superconductors.However,the pressure required to stabilize H_(3)S is 150 GPa,posing significant challenges for experiments.Therefore,it is essential to find a strategy to reduce this pressure.In this study,by introducing halogen atoms into the H-S system,we discovered that hydrogen-based superconductors of H_(6)SX(X=Cl and Br)can be dynamically stable at mild pressures(5 GPa for H_(6)SCl and H_(6)SBr),as confirmed by first-principles calculations.Through the analysis of the bond properties,we revealed that introducing halogen elements would strengthen the H–S covalent bonds to reduce the dynamically stable pressure of H_(3)S.Our study provides a scheme to reduce the superconducting pressure of hydrogen-based superconductors.展开更多
Recent results of High Nitrogen Pressure Solution (HNPS) growth of GaN crystals deposited on and separated from 2 inch,and smaller,GaN substrates grown by Hydride Vapor Phase Epitaxy (HVPE) have been presented. The in...Recent results of High Nitrogen Pressure Solution (HNPS) growth of GaN crystals deposited on and separated from 2 inch,and smaller,GaN substrates grown by Hydride Vapor Phase Epitaxy (HVPE) have been presented. The influence of the c-plane bowing in the initial substrate on quality,rate and mode of growth by HNPS method has been analyzed in details.展开更多
Magnesium diboride(MgB_(2))magnets have the potential to be the next-generation liquid-helium-free magnet for magnetic resonance imaging(MRI)application due to their relatively high superconducting transition temperat...Magnesium diboride(MgB_(2))magnets have the potential to be the next-generation liquid-helium-free magnet for magnetic resonance imaging(MRI)application due to their relatively high superconducting transition temperature,high current density and low raw material cost compared with current commercial niobium-titanium(Nb-Ti)magnets.A typical superconducting magnet includes several coils.To produce an ultra-stable magnetic field for imaging in MRI,a superconducting electromagnet operating in a persistent mode is crucial.Superconducting coils of the electromagnet in MRI are short-circuited to operate in the persistent mode by connecting coils with superconducting joints.Per-sistent joints have been demonstrated for in-situ and ex-situ wires of both mono-and multi-filamentary structures,made predominantly by PIT techniques similar to those used in wire production.To realise further engagement of MgB_(2)in MRI applications,enhancing the performance of MgB_(2)superconducting joints is essential.This literature review summarises research and development on MgB_(2)superconducting joining technology.展开更多
The theoretical predictions and experimental synthesis of H_(3)S and LaH_(10) superconductors with record high superconducting transition temperatures(T_(c))have promoted the hydrogen-based superconducors to be a rese...The theoretical predictions and experimental synthesis of H_(3)S and LaH_(10) superconductors with record high superconducting transition temperatures(T_(c))have promoted the hydrogen-based superconducors to be a research hotspot in the field of solid-state physics.Here,we predict an unprecedented layered structure CaH15,with high T_(c) of 189 K at 200 GPa using ab initio calculations.As concerns the novel structure,one layer is made of a hydrogen nonagon,the other layer consists of a Ca atom and six H_(2) molecular units surrounding the Ca atom.This layered structure was also found in SrH_(15),YH_(15),and LaH_(15) at high pressures,each materials exhibit high T_(c) especially YH_(15) can reach above 200 K at 220 GPa.It represents the second class of layered superhydrides with high value of Tc after pentagraphene like HfH10.展开更多
Sound velocities in shock-loaded solids are not only important to determine bulk moduli of solids at high pressures, but are also crucial to inform the shock melting of solids upon loading. In this letter, we first re...Sound velocities in shock-loaded solids are not only important to determine bulk moduli of solids at high pressures, but are also crucial to inform the shock melting of solids upon loading. In this letter, we first report on shock melting of porous solids at high pressures by measuring sound velocities in the porous iron of average density 6.90 g/cm^(3) in the pressure range of 110-180 GPa. The measured sound velocity softens at pressures from 122 to 156 Gpa, which may be attributed to shock melting of the porous iron.展开更多
In this paper,the generalized Boussinesq wave equation u tt-uxx+a(um) xx+buxxxx=0 is investigated by using the bifurcation theory and the method of phase portraits analysis.Under the different parameter conditions,the...In this paper,the generalized Boussinesq wave equation u tt-uxx+a(um) xx+buxxxx=0 is investigated by using the bifurcation theory and the method of phase portraits analysis.Under the different parameter conditions,the exact explicit parametric representations for solitary wave solutions and periodic wave solutions are obtained.展开更多
The study is concerned with the mechanical properties of Zn and three Zn–Mg double alloys with Mg concentrations:0.5%,1.0%and 1.5%in the form of rods with a diameter of 5 mm as potential materials for use in biodegra...The study is concerned with the mechanical properties of Zn and three Zn–Mg double alloys with Mg concentrations:0.5%,1.0%and 1.5%in the form of rods with a diameter of 5 mm as potential materials for use in biodegradable medical implants,such as vascular stents.The materials were cast,next conventionally hot extruded at 250°C and finally,hydrostatically extruded(HE)at ambient temperature.Occasionally HE process was carried at liquid nitrogen temperature or in combination with the ECAP process.After HE,the microstructure of the alloys was made up of fine-grainedαZn of mean grain size~1μm in a 2-phase coat of 50–200 nm nanograins of the fineαZn+Mg2Zn11 eutectic.The 3 to 4-fold reduction of grain size as a result of HE allowed an increase in yield strength from 100%to over 200%,elongation to fracture from 100%to thirty fold and hardness over 50%compared to the best literature results for similar alloys.Exceptions accounted for elongation to fracture in case of Zn-0.5 Mg alloy and hardness in case of Zn-1.5 Mg alloy,both of which fell by 20%.For the Zn-0.5 Mg and Zn–1Mg alloys,after immersion tests,no corrosive degradation of plasticity was observed.Achieving these properties was the result of generating large plastic deformations at ambient temperature due to the application of high pressure forming with the cumulative HE method.The results showed that Zn–Mg binary alloys after HE have mechanical and corrosive characteristics,qualifying them for applications in biodegradable implants,including vascular stents.展开更多
In this work, we study how an epitaxial laser-like(or superluminescent diode-like) structure is modified by intentional changes of the substrate misorientation in the range of 0.5°–2.6°. The 40 μm × ...In this work, we study how an epitaxial laser-like(or superluminescent diode-like) structure is modified by intentional changes of the substrate misorientation in the range of 0.5°–2.6°. The 40 μm × 40 μm test structure with misorientation profiling was fabricated using multilevel photolithography and dry-etching. The local structural parameters were measured by synchrotron radiation microbeam X-ray diffraction, with the sampling area of below 1 μm × 1 μm. We directly obtained the relation between the misorientation and indium content in the quantum well, changing from 9% to 18%, with a high resolution(small misorientation step). We also show a good agreement of local photoluminescence emission wavelength with simulation of transition energy based on synchrotron radiation microbeam X-ray diffraction(SR-XRD) data and estimated Stokes shift. We observe that the substrate misorientation influences also the In Ga N waveguide and Al Ga N cladding composition. Still, we showed through simulation of the optical confinement factor of a full laser diode structure that good light guiding properties should be preserved in the whole misorientation range studied here. This proves the usefulness of misorientation modification in applications like broadband superluminescent diodes or multicolor laser arrays.展开更多
We study coherent spin transport through helical edge states of topological insulator tunnel-coupled to metallic leads.We demonstrate that unpolarized incoming electron beam acquires finite polarization after transmis...We study coherent spin transport through helical edge states of topological insulator tunnel-coupled to metallic leads.We demonstrate that unpolarized incoming electron beam acquires finite polarization after transmission through such a setup provided that edges contain at least one magnetic impurity.The finite polarization appears even in the fully classical regime and is therefore robust to dephasing.There is also a quantum magnetic field-tunable contribution to the polarization,which shows sharp identical Aharonov-Bohm resonances as a function of magnetic flux—with the period hc/2e—and survives at relatively high temperature.We demonstrate that this tunneling interferometer can be described in terms of ensemble of flux-tunable qubits giving equal contributions to conductance and spin polarization.The number of active qubits participating in the charge and spin transport is given by the ratio of the temperature and the level spacing.The interferometer can effectively operate at high temperature and can be used for quantum calculations.In particular,the ensemble of qubits can be described by a single Hadamard operator.The obtained results open wide avenue for applications in the area of quantum computing.展开更多
In this work,the microstructure of titania coating fabricated on the surface of hydrostatically extruded titanium grade 4 with the use of the micro-arc oxidation method was studied.The surface topography and microstru...In this work,the microstructure of titania coating fabricated on the surface of hydrostatically extruded titanium grade 4 with the use of the micro-arc oxidation method was studied.The surface topography and microstructure investigations performed with atomic force microscopy and scanning and transmission electron microscopy revealed that,by using an Na_(2)HPO_(4)electrolyte,a well-adherent porous coating is produced on the top surface and side walls of the extruded rod.The distribution of chemical elements was analyzed by using energy dispersive X-ray spectroscopy.The chemical elements dissolved in the electrolyte(Na,P and O)incorporated into the coating.Sodium locates preferentially in the outer part of the coating,while phosphorus and oxygen are distributed throughout the whole coating.The most relevant finding shows that a grain refinement caused by a hydrostatic extrusion provoked an increase in density of high-angle grain boundaries(HAGB),which in turn secured the formation of a continuous amorphous layer close to the substrate.The presence of this layer compensates for the effect of anisotropic substrate,producing a comparable and homogenous microstructure with a large number of micropores.展开更多
We demonstrate InGaN violet light-emitting superluminescent diodes with large spectral width suitable for applications in optical coherence spectroscopy.This was achieved using the concept of nonlinear indium content ...We demonstrate InGaN violet light-emitting superluminescent diodes with large spectral width suitable for applications in optical coherence spectroscopy.This was achieved using the concept of nonlinear indium content profile along the superluminescent diode waveguide.A specially designed 3D substrate surface shape leads to a step-like indium content profile,with the indium concentration in the InGaN/GaN quantum wells ranging approximately between 6% and 10%.Thanks to this approach,we were able to increase the width of the spectrum in processed devices from 2.6 nm(reference diode)to 15.5 nm.展开更多
基金Supported by the Science Foundation of the Key Laboratory of Shock Physics and Detonation Physics of CAEP under Contract No 51478030404QT2201.
The authors thank Professor Jing Fuqian for helpful discussions and Xue Xuedong and Zhang Minjian for experiment assistance.
基金the National Natural Science Foundation of China(Grant Nos.11704143,11804113,11604023,and 12122405)。
文摘Solid H_(2)S as the precursor for H_(3)S with incredible superconducting properties under high pressure,has recently attracted extensive attention.Here in this work,we propose two new phases of H_(2)S with P42/n and I41/a lattice symmetries in a pressure range of 0 GPa–30 GPa through first-principles structural searches,which complement the phase transition sequence.Further an ab initio molecular dynamics simulation confirms that the molecular phase P2/c of H_(2)S is gradually dissociated with the pressure increasing and reconstructs into a new P2_(1)/m structure at 160 GPa,exhibiting the superconductivity with Tc of 82.5 K.Our results may provide a guidance for the theoretical study of low-temperature superconducting phase of H_(2)S.
基金This work was supported by the National Key R&D Program of China(Grant Nos.2018YFA0305900 and 2022YFA1402304)the National Natural Science Foundation of China(Grant Nos.12122405,52072188,and 12274169)+1 种基金the Program for Changjiang Scholars and Innovative Research Team in University(Grant No.IRT_15R23)a Jilin Provincial Science and Technology Development Project(Grant No.20210509038RQ).Some of the calculations were performed at the High Performance Computing Center of Jilin University and on TianHe-1(A)at the National Supercomputer Center in Tianjin.
文摘Recently,room-temperature superconductivity has been reported in a nitrogen-doped lutetium hydride at near-ambient pressure[Dasenbrock-Gammon et al.,Nature 615,244(2023)].The superconducting properties might arise from Fm3m-LuH_(3)−δNε.Here,we systematically study the phase diagram of Lu–N–H at 1 GPa using first-principles calculations,and we do not find any thermodynamically stable ternary compounds.In addition,we calculate the dynamic stability and superconducting properties of N-doped Fm3m-LuH_(3) using the virtual crystal approximation(VCA)and the supercell method.The R3m-Lu_(2)H_(5)N predicted using the supercell method could be dynamically stable at 50 GPa,with a T_(c) of 27 K.According to the VCA method,the highest T_(c) is 22 K,obtained with 1%N-doping at 30 GPa.Moreover,the doping of nitrogen atoms into Fm3m-LuH_(3) slightly enhances T_(c),but raises the dynamically stable pressure.Our theoretical results show that the T_(c) values of N-doped LuH_(3) estimated using the Allen–Dynes-modified McMillan equation are much lower than room temperature.
基金Supported by the National Natural Science Foundation of China under Grant No 10299040. We thank Liu F S, Zhou X M, and Shi C C for their helpful discussion, and Xue X for his assistance in experiments.
基金Supported by the National Natural Science Foundation of China(Grant Nos.12122405,51632002,and 11974133)the Program for Changjiang Scholars and Innovative Research Team in Universities(Grant No.IRT 15R23)+1 种基金financial support from the Engineering and Physical Sciences Research Council(Grant No.EP/P022596/1)。
文摘Sulfur and lanthanum hydrides under compression display superconducting states with high observed critical temperatures.It has been recently demonstrated that carbonaceous sulfur hydride displays room temperature superconductivity.However,this phenomenon has been observed only at very high pressure.Here,we theoretically search for superconductors with very high critical temperatures,but at much lower pressures.We describe two of such sodalite-type clathrate hydrides,YbH6 and LuH6.These hydrides are metastable and are predicted to superconduct with T_(c)~145 K at 70 GPa and T_(c)~273 K at 100 GPa,respectively.This striking result is a consequence of the strong interrelationship between the f states present at the Fermi level,structural stability,and the final T_(c) value.For example,TmH6,with unfilled 4f orbitals,is stable at 50 GPa,but has a relatively low value of T_(c) of 25 K.The YbH6 and LuH6 compounds,with their filled f-shells,exhibit prominent phonon"softening",which leads to a strong electron-phonon coupling,and as a result,an increase in T_(c).
基金Supported by the National High-Technology Research and Development Program of China under Grant No 2014AA032602the National Natural Science Foundation of China under Grant Nos 61474115 and 61501421
文摘Surface leakage currents of AlGaN/GaN high electron mobility transistors are investigated by utihzing a circular double-gate structure to eliminate the influence of mesa leakage current.Different mechanisms are found under various passivation conditions.The mechanism of the surface leakage current with Al_2O_3 passivation follows the two-dimensional variable range hopping model,while the mechanism of the surface leakage current with SiN passivation follows the Frenkel-Poole trap assisted emission.Two trap levels are found in the trap-assisted emission.One trap level has a barrier height of 0.22 eV for the high electric Geld,and the other trap level has a barrier height of 0.12 eV for the low electric field.
基金This work was supported by the Australian Research Council(Grant No.LP160101784)A.K.thanks the Researchers Supporting Project(RSP-2019/127)King Saud University,Riyadh,Saudi Arabia for the support.This work was performed in part at the Queensland node of the Australian National Fabrication Facility,a company established under the National Collaborative Research Infrastructure Strategy to provide nano-and microfabrication facilities for Australia's researchers.M.M.acknowledges an internal funding project of the University of Osijek(ZUP-2018).
文摘The effect of cold high pressure densification(CHPD)on anisotropy of the critical current density(Jc)in《in situ》single core binary and alloyed MgB2 tapes has been determined as a function of temperatures at 4.2 K,20 K and 25 K as well as at applied magnetic fields up to 19 T.The study includes binary and C4H6O5(malic acid)doped MgB2 tapes before and after CHPD.It is remarkable that the CHPD process not only improved the Jc values,in particular at the higher magnetic fields,but also decreased the anisotropy ratio,Г=JC^///JC^⊥In binary MgB2 tapes,the anisotropy factor F increases with higher aspect ratios,even after applying CHPD.In malic acid(C4H6O5)doped tapes,however,the application of CHPD leads only to small enhancements ofГ,even for higher aspect ratios.This is attributed to the higher carbon content in the MgB2 filaments,which in turn is a consequence of the reduced chemical reaction path in the densified filaments.At all applied field values,it was found that CHPD processed C4H6O5 doped tapes exhibit an almost isotropic behavior.This constitutes an advantage in view of industrial magnet applications using wires with square or slightly rectangular configuration.
基金supported by the National Natural Science Foundation of China(Grant Nos.12122405,52072188,and 12274169)the National Key R&D Program of China(Grant No.2022YFA1402304)+1 种基金the Program for Changjiang Scholars and Innovative Research Team in University(Grant No.IRT_15R23)the Jilin Provincial Science and Technology Development Project(Grant No.20210509038RQ)。
文摘Superconductivity in compressed sulfur hydride(H_(3)S)at above 200 K has attracted great interest in the study of hydrogen-based superconductors.However,the pressure required to stabilize H_(3)S is 150 GPa,posing significant challenges for experiments.Therefore,it is essential to find a strategy to reduce this pressure.In this study,by introducing halogen atoms into the H-S system,we discovered that hydrogen-based superconductors of H_(6)SX(X=Cl and Br)can be dynamically stable at mild pressures(5 GPa for H_(6)SCl and H_(6)SBr),as confirmed by first-principles calculations.Through the analysis of the bond properties,we revealed that introducing halogen elements would strengthen the H–S covalent bonds to reduce the dynamically stable pressure of H_(3)S.Our study provides a scheme to reduce the superconducting pressure of hydrogen-based superconductors.
基金supported by the European Union within European Regional Development Fund,through grant Innovative Economy (POIG.01.01.02-00-008/08)
文摘Recent results of High Nitrogen Pressure Solution (HNPS) growth of GaN crystals deposited on and separated from 2 inch,and smaller,GaN substrates grown by Hydride Vapor Phase Epitaxy (HVPE) have been presented. The influence of the c-plane bowing in the initial substrate on quality,rate and mode of growth by HNPS method has been analyzed in details.
基金thankful for the support from the Australian Research Council(ARC)Linkage Project(LP200200689).
文摘Magnesium diboride(MgB_(2))magnets have the potential to be the next-generation liquid-helium-free magnet for magnetic resonance imaging(MRI)application due to their relatively high superconducting transition temperature,high current density and low raw material cost compared with current commercial niobium-titanium(Nb-Ti)magnets.A typical superconducting magnet includes several coils.To produce an ultra-stable magnetic field for imaging in MRI,a superconducting electromagnet operating in a persistent mode is crucial.Superconducting coils of the electromagnet in MRI are short-circuited to operate in the persistent mode by connecting coils with superconducting joints.Per-sistent joints have been demonstrated for in-situ and ex-situ wires of both mono-and multi-filamentary structures,made predominantly by PIT techniques similar to those used in wire production.To realise further engagement of MgB_(2)in MRI applications,enhancing the performance of MgB_(2)superconducting joints is essential.This literature review summarises research and development on MgB_(2)superconducting joining technology.
基金supported by the National Natural Science Foundation of China(Grant Nos.12122405,52072188,and 51632002)the National Key R&D Program of China(Grant No.2018YFA0305900)the Jilin Provincial Science and Technology Development Project(20210509038RQ)。
文摘The theoretical predictions and experimental synthesis of H_(3)S and LaH_(10) superconductors with record high superconducting transition temperatures(T_(c))have promoted the hydrogen-based superconducors to be a research hotspot in the field of solid-state physics.Here,we predict an unprecedented layered structure CaH15,with high T_(c) of 189 K at 200 GPa using ab initio calculations.As concerns the novel structure,one layer is made of a hydrogen nonagon,the other layer consists of a Ca atom and six H_(2) molecular units surrounding the Ca atom.This layered structure was also found in SrH_(15),YH_(15),and LaH_(15) at high pressures,each materials exhibit high T_(c) especially YH_(15) can reach above 200 K at 220 GPa.It represents the second class of layered superhydrides with high value of Tc after pentagraphene like HfH10.
基金Supported by the National Natural Science Foundation of China under Grant No.10032040。
文摘Sound velocities in shock-loaded solids are not only important to determine bulk moduli of solids at high pressures, but are also crucial to inform the shock melting of solids upon loading. In this letter, we first report on shock melting of porous solids at high pressures by measuring sound velocities in the porous iron of average density 6.90 g/cm^(3) in the pressure range of 110-180 GPa. The measured sound velocity softens at pressures from 122 to 156 Gpa, which may be attributed to shock melting of the porous iron.
基金Supported by the National Natural Science Foundation of China under Grant No. 10974160the Scientific Research Foundation of the Education Department of Sichuan Province of China under Grant No. 10ZA004
文摘In this paper,the generalized Boussinesq wave equation u tt-uxx+a(um) xx+buxxxx=0 is investigated by using the bifurcation theory and the method of phase portraits analysis.Under the different parameter conditions,the exact explicit parametric representations for solitary wave solutions and periodic wave solutions are obtained.
基金the National Science Centre(Poland),grant UMO-2016/23/B/ST8/00724.
文摘The study is concerned with the mechanical properties of Zn and three Zn–Mg double alloys with Mg concentrations:0.5%,1.0%and 1.5%in the form of rods with a diameter of 5 mm as potential materials for use in biodegradable medical implants,such as vascular stents.The materials were cast,next conventionally hot extruded at 250°C and finally,hydrostatically extruded(HE)at ambient temperature.Occasionally HE process was carried at liquid nitrogen temperature or in combination with the ECAP process.After HE,the microstructure of the alloys was made up of fine-grainedαZn of mean grain size~1μm in a 2-phase coat of 50–200 nm nanograins of the fineαZn+Mg2Zn11 eutectic.The 3 to 4-fold reduction of grain size as a result of HE allowed an increase in yield strength from 100%to over 200%,elongation to fracture from 100%to thirty fold and hardness over 50%compared to the best literature results for similar alloys.Exceptions accounted for elongation to fracture in case of Zn-0.5 Mg alloy and hardness in case of Zn-1.5 Mg alloy,both of which fell by 20%.For the Zn-0.5 Mg and Zn–1Mg alloys,after immersion tests,no corrosive degradation of plasticity was observed.Achieving these properties was the result of generating large plastic deformations at ambient temperature due to the application of high pressure forming with the cumulative HE method.The results showed that Zn–Mg binary alloys after HE have mechanical and corrosive characteristics,qualifying them for applications in biodegradable implants,including vascular stents.
基金Japan Society for the Promotion of Science(JP15H05732, JP16H02332, JP16H06426)Fundacja na rzecz Nauki Polskiej (TEAM TECH/2017-4/24)。
文摘In this work, we study how an epitaxial laser-like(or superluminescent diode-like) structure is modified by intentional changes of the substrate misorientation in the range of 0.5°–2.6°. The 40 μm × 40 μm test structure with misorientation profiling was fabricated using multilevel photolithography and dry-etching. The local structural parameters were measured by synchrotron radiation microbeam X-ray diffraction, with the sampling area of below 1 μm × 1 μm. We directly obtained the relation between the misorientation and indium content in the quantum well, changing from 9% to 18%, with a high resolution(small misorientation step). We also show a good agreement of local photoluminescence emission wavelength with simulation of transition energy based on synchrotron radiation microbeam X-ray diffraction(SR-XRD) data and estimated Stokes shift. We observe that the substrate misorientation influences also the In Ga N waveguide and Al Ga N cladding composition. Still, we showed through simulation of the optical confinement factor of a full laser diode structure that good light guiding properties should be preserved in the whole misorientation range studied here. This proves the usefulness of misorientation modification in applications like broadband superluminescent diodes or multicolor laser arrays.
基金The work was supported by the Russian Science Foundation(Grant No.20-12-00147)by the Foundation for the Advancement of Theoretical Physics and Mathematics"BASIS”.
文摘We study coherent spin transport through helical edge states of topological insulator tunnel-coupled to metallic leads.We demonstrate that unpolarized incoming electron beam acquires finite polarization after transmission through such a setup provided that edges contain at least one magnetic impurity.The finite polarization appears even in the fully classical regime and is therefore robust to dephasing.There is also a quantum magnetic field-tunable contribution to the polarization,which shows sharp identical Aharonov-Bohm resonances as a function of magnetic flux—with the period hc/2e—and survives at relatively high temperature.We demonstrate that this tunneling interferometer can be described in terms of ensemble of flux-tunable qubits giving equal contributions to conductance and spin polarization.The number of active qubits participating in the charge and spin transport is given by the ratio of the temperature and the level spacing.The interferometer can effectively operate at high temperature and can be used for quantum calculations.In particular,the ensemble of qubits can be described by a single Hadamard operator.The obtained results open wide avenue for applications in the area of quantum computing.
基金financially supported by the Institute of Metallurgy and Materials Science of the Polish Academy of Sciences within the statutory work Z-4/2021partly supported by the EU Project POWR.03.02.00–00-I004/16。
文摘In this work,the microstructure of titania coating fabricated on the surface of hydrostatically extruded titanium grade 4 with the use of the micro-arc oxidation method was studied.The surface topography and microstructure investigations performed with atomic force microscopy and scanning and transmission electron microscopy revealed that,by using an Na_(2)HPO_(4)electrolyte,a well-adherent porous coating is produced on the top surface and side walls of the extruded rod.The distribution of chemical elements was analyzed by using energy dispersive X-ray spectroscopy.The chemical elements dissolved in the electrolyte(Na,P and O)incorporated into the coating.Sodium locates preferentially in the outer part of the coating,while phosphorus and oxygen are distributed throughout the whole coating.The most relevant finding shows that a grain refinement caused by a hydrostatic extrusion provoked an increase in density of high-angle grain boundaries(HAGB),which in turn secured the formation of a continuous amorphous layer close to the substrate.The presence of this layer compensates for the effect of anisotropic substrate,producing a comparable and homogenous microstructure with a large number of micropores.
基金Narodowe Centrum Nauki(NCN)(2014/15/B/ST3/04252)Narodowe Centrum Badan'i Rozwoju(NCBR)(1/POLBER-1/2014)
文摘We demonstrate InGaN violet light-emitting superluminescent diodes with large spectral width suitable for applications in optical coherence spectroscopy.This was achieved using the concept of nonlinear indium content profile along the superluminescent diode waveguide.A specially designed 3D substrate surface shape leads to a step-like indium content profile,with the indium concentration in the InGaN/GaN quantum wells ranging approximately between 6% and 10%.Thanks to this approach,we were able to increase the width of the spectrum in processed devices from 2.6 nm(reference diode)to 15.5 nm.