Traditional Chinese medicine has unique advantages in preventing and treating COVID-19,and Fuzheng Jiedu decoction(FZJDD)was reported to be effective against COVID-19 in clinical trials.To investigate the potential me...Traditional Chinese medicine has unique advantages in preventing and treating COVID-19,and Fuzheng Jiedu decoction(FZJDD)was reported to be effective against COVID-19 in clinical trials.To investigate the potential mechanisms and material basis of FZJDD against SARS-CoV-2,we performed SARS-CoV-2 target protein inhibition analyses and a metabolite full spectrum analysis of FZJDD.Interestingly,FZJDD was found to block the binding of SARS-CoV-2 Spike protein with the receptor ACE2 and inhibit the activity of SARS-CoV-23CLpro.Moreover,FZJDD can regulate the TNF and the MAPK signaling pathway to inhibit the inflammatory response and alleviate the“cytokine storm”.A total of 298 compounds were identified in FZJDD,among them,caffeic acid and octyl gallate were found to be the potential therapeutic agents of FZJDD.Importantly,FZJDD can broadly inhibit coronavirus infection,including SADS-CoV and porcine epidemic diarrhea virus(PEDV)live viruses,SARS-CoV,MERS-CoV,and SARS-CoV-2 mutant pseudotyped viruses,which might be ascribed to the broad-spectrum anti-coronavirus activity of caffeic acid and octyl gallate.In conclusion,this study reveals the mechanisms and material basis of FZJDD against SARS-CoV-2 and identifies the broadspectrum anti-coronavirus activity of FZJDD for the first time.Our data provide empirical evidence for the development and application of FZJDD.展开更多
Obtaining high-quality 10000-meter-deep seafloor sediment samples is the prerequisite and foundation for conducting deep-sea geological and environmental scientific research.The bottom structure of the deep seafloor i...Obtaining high-quality 10000-meter-deep seafloor sediment samples is the prerequisite and foundation for conducting deep-sea geological and environmental scientific research.The bottom structure of the deep seafloor is complex,and the physical and mechanical properties and disturbance resistance of sediments of different lithologies vary greatly,so the sediment sampler inevitably disturbs the sediments during the sampling process and affects the quality of the sediment samples.A new type of deep-sea sediment pressure retaining sampler is introduced,the force state and elastic–plastic state of the sampler destroying sediments are analyzed,the radial disturbance model of sediment coring based on the spherical cavity expansion theory is established,and the radius of sediments undergoing plastic deformation around the spherical holes is used as an index for evaluating the radial disturbance of sediments.The distribution of stress and strain fields in the sediments during the expansion of the spherical cavity and the influencing factors of the radius of the radially disturbed region(plastic region)are analyzed using an arithmetic example,and the influence law is analyzed.A sediment disturbance experimental platform was built indoors to simulate the sediment coring process.The radial stress field and pore water pressure of the sediment during the coring process were monitored by sensors arranged inside the sediment,and the results of indoor tests verified the correctness of the perturbation theory model.The sampler was carried aboard the deep-sea manned submersible FENDOUZHE and conducted on-site tests at depths of 9298.4 and 9142.8 m in the Kuril-Kamchatka Trench.Pressure-preserved sediment samples were retrieved,with preservation rates of 94.21%and 92.02%,respectively,which are much higher than the current technical indicator of 80%of pressure-holding ratio for deep-sea sediments.The retrieved sediments have obvious stratification characteristics and little disturbance.展开更多
The corrosion behavior and microstructure characteristics of metal inert gas(MIG)welded dissimilar joints of the 6005A alloy modified with Sc(designated as 6005A+Sc)and the 5083 alloy were investigated using corrosion...The corrosion behavior and microstructure characteristics of metal inert gas(MIG)welded dissimilar joints of the 6005A alloy modified with Sc(designated as 6005A+Sc)and the 5083 alloy were investigated using corrosion tests and microscopy techniques.Results show that the dissimilar joints exhibit strong stress corrosion cracking(SCC)resistance,maintaining substantial strength during slow strain rate tensile tests.Notably,the heat-affected zone(HAZ)and base metal(BM)on the 6005A+Sc side show superior performance in terms of inter-granular corrosion(IGC)and exfoliation corrosion(EXCO)compared to the corresponding zones on the 5083 side.The lower corrosion resistance of the 5083-BM and the 5083-HAZ can be attributed to the presence of numerous Al_(2)Mg_(3)phases and micro-scaled Al_(6)(Mn,Fe)intermetallics,mainly distributed along the rolling direction.Conversely,the enhanced corrosion resistance of the 6005A+Sc-BM and the 6005A+Sc-HAZ can be attributed to the discontinuously distributed grain boundary precipitates(β-Mg_(2)Si),the smaller grain size,and the reduced corrosive current density.展开更多
The study of the charge conjugation and parity(CP)violation of hyperon is the precision frontier for probing possible new CP violation sources beyond the standard model(SM).With the large number of quantum entangled h...The study of the charge conjugation and parity(CP)violation of hyperon is the precision frontier for probing possible new CP violation sources beyond the standard model(SM).With the large number of quantum entangled hyperonantihyperon pairs to be produced at Super Tau-Charm Facility(STCF),the CP asymmetry of hyperon is expected to be tested with a statistical sensitivity of 10^(−4) or even better.To cope with the statistical precision,the systematic effects from various aspects are critical and need to be studied in detail.In this paper,the sensitivity effects on the CP violation parameters associated with the detector resolution,including those of the position and momentum,are studied and discussed in detail.The results provide valuable guidance for the design of STCF detector.展开更多
Traditional Chinese medicine(TCM)possesses original theoretical advantages and thousands of years of human experience of its application and plays an important role in the prevention and treatment of infectious diseas...Traditional Chinese medicine(TCM)possesses original theoretical advantages and thousands of years of human experience of its application and plays an important role in the prevention and treatment of infectious diseases and major chronic illnesses.With the support of national policies,the advantages of the“five major resources”of TCM are gradually being realized,ushering the enterprise and industry of TCM into a new era of high-quality development.展开更多
Through three millennia of practice,Traditional Chinese Medicine(TCM)has evolved by integrating knowledge from diverse disciplines,forging a distinct developmental path that respects its ancient foundations while inco...Through three millennia of practice,Traditional Chinese Medicine(TCM)has evolved by integrating knowledge from diverse disciplines,forging a distinct developmental path that respects its ancient foundations while incorporating innovation.TCM has achieved significant breakthroughs in elucidating its theoretical foundations using contemporary scientific methodologies,through the implementation of modernization initiatives over the past three decades.The TCM modernization program has yielded continuous innovations,propelling TCM into a high-quality development stage across both clinical practice and industrial applications.Notably,these advances have enhanced global recognition and adoption of TCM.展开更多
A Mg−13Gd−4Y−2Zn−0.5Zr(wt.%)alloy was selected as the experimental material.After preheating,initial microstructures with different long-period stacking ordered(LPSO)phase andβ'phase distributions were obtained,a...A Mg−13Gd−4Y−2Zn−0.5Zr(wt.%)alloy was selected as the experimental material.After preheating,initial microstructures with different long-period stacking ordered(LPSO)phase andβ'phase distributions were obtained,and hot compression experiments were conducted.The effects of secondary phases on microstructure and dynamic recrystallization(DRX)behavior were investigated.The results revealed that the average grain size decreased from 70.93 to 31.53μm,and the DRX volume fraction increased from 20.3%to 40.1%after the pre-annealing treatment.The average grain size of Sample S0(pre-aging)decreased to 39.29μm,and the DRX volume fraction increased by 79.8%,whereas the average grain size of Samples S1−S7(pre-annealing+aging)slightly increased,and the DRX volume fraction slightly decreased.With increasing pre-annealing time,the width of the lamellar LPSO phase increased,which generated less dynamic precipitation during deformation and weakened the pinning effect.The DRX mechanism transformed from continuous dynamic recrystallization(CDRX,pre-homogenization sample)to particle-stimulated nucleation(PSN)+discontinuous dynamic recrystallization(DDRX,pre-annealing sample).After the pre-aging treatment,the reticular structure effectively pinned the dislocations and delayed the nucleation and growth of DRX grains.The DRX mechanism changed from the original CDRX+PSN(pre-aging sample)to DDRX(pre-annealing+aging sample).展开更多
Manipulating and braiding Majorana zero modes(MZM)are a critical step toward realizing topological quantum computing.The primary challenge is controlling the vortex,which hosts the MZM,within a superconducting film in...Manipulating and braiding Majorana zero modes(MZM)are a critical step toward realizing topological quantum computing.The primary challenge is controlling the vortex,which hosts the MZM,within a superconducting film in a spatially precise manner.To address this,we developed a magnetic force-based vortex control technology using the STM system with a self-designed four-electrode piezo-scanner tube and investigated vortex manipulation on the NbSe_(2) superconducting film.We employed ferromagnetic tips to control the movement of vortex array induced by the tip's remanent magnetism.A magnetic core solenoid device was integrated into the STM system and a strong magnetic tip demagnetization technique was developed,providing a viable technical solution for further enabling single vortex manipulation.展开更多
A novel approach of decorating graphene surface with graphene quantum dots(abbreviated as GQDs@Gr)was presented to achieve superior tribological properties in Gr/Cu composites.The prepared GQDs@Gr hybrid reinforcement...A novel approach of decorating graphene surface with graphene quantum dots(abbreviated as GQDs@Gr)was presented to achieve superior tribological properties in Gr/Cu composites.The prepared GQDs@Gr hybrid reinforcement possessed superior dispersion and had achieved strong interface bonding with Cu matrix.GQDs@Gr/Cu composite showed a good combination of wear resistance and electrical conductivity due to the synergistic effect of GQDs and Gr.Specifically,the coefficient of friction(COF)was reduced to 0.3,the wear rate(WR)was 2.13×10^(-5) mm^(3)·N^(−1)·m^(−1)(only a quarter of pure copper),and maintained the electrical conductivity of 96.5%IACS(international annealed copper standard).As a result,delamination,fracture,and plow furrows on the wear surface of Gr/Cu composite indicate that fatigue and abrasive adhesive wear are the main wear mechanisms.Wear surface lubrication film and strong interface bonding ensure better comprehensive performance of GQDs@Gr/Cu composite.展开更多
Oil bodies(OBs)are the lipid-storage organelle in oilseed,and their interface properties are crucial for oilseed processing.To elucidate the effect of interfacial proteins on the functional properties of high-oleic an...Oil bodies(OBs)are the lipid-storage organelle in oilseed,and their interface properties are crucial for oilseed processing.To elucidate the effect of interfacial proteins on the functional properties of high-oleic and normal peanut OBs,OBs were extracted using ultrasound-assisted aqueous enzymatic extraction(AEE),and the effects of ultrasonic power(100–500 W)and extraction time(0–30 min)on the interface properties were investigated.These results indicate that the interfacial protein content and interface properties of OBs can be significantly affected by ultrasonic treatment.The interfacial protein content of high-oleic peanut OBs increased from 88.25%to 91.95%after ultrasonic treatment,which was 1.4 times that of normal peanuts OBs.The emulsifying activity index(EAI)and emulsion stability index(ESI)values of both peanut OBs increased with the increase in ultrasonic power and extraction time.These results suggest that the emulsification ability of OBs may be closely related to the interfacial protein content and therefore can be regulated by altering the interfacial protein content using ultrasonic treatment.However,the particle size of OBs tends to increase under low ultrasonic power(0–200 W)owing to the increase in the interfacial protein content and aggregation effects,whereas it decreases under high ultrasonic power(300 W–500 W)due to cavitation effects.This pattern of change in particle size was also confirmed by confocal laser scanning microscopy,which indicated that high ultrasonic power suppressed the contribution of the interfacial protein content to the particle size,but still improved the emulsification ability of the OBs by reducing the particle size and increasing the interfacial tension.Therefore,regulating the interfacial protein content of peanut OBs by adjusting ultrasonic power is a promising way to improve their functional properties.展开更多
Objective:Breast cancer is the second most prevalent cause of mortality in women and the predominant malignancy type.However,breast cancer treatment faces challenges in managing aromatase inhibitor-induced arthralgia....Objective:Breast cancer is the second most prevalent cause of mortality in women and the predominant malignancy type.However,breast cancer treatment faces challenges in managing aromatase inhibitor-induced arthralgia.Aromatase inhibitors have been shown to decrease recurrence risk in hormone receptor-positive cases;however,joint discomfort remains the primary adverse effect.Randomized clinical trials have evaluated the therapeutic outcomes of acupuncture for medication-related musculoskeletal complications.This comprehensive analysis sought to elucidate both the therapeutic efficacy and placebo responses associated with acupuncture intervention.Methods:Two reviewers searched for randomized controlled trials(RCTs)in four English(PubMed,Embase,Web of Science,and the Cochrane Library)and four Chinese databases(CNKI,Wanfang Database,VIP,and SinoMed)from their inception to May 31,2024.Methodological quality was assessed using the Cochrane risk of bias tool.Data were synthesized using random effects models and presented with forest plots.Results:Seven trials involving 604 patients were included.The primary outcome and Brief Pain Inventory(BPI)score differed between the acupuncture and control groups(sham acupuncture or usual medication)in three subscales over the course of 6 weeks:worst pain:standardized mean difference(SMD)=-1.18,95%confidence interval(CI):-1.74,-0.63,P<0.001;painrelated interference:SMD=-0.87,95%CI:-1.70,-0.05,P=0.038;pain severity:SMD=-0.63,95%CI:-1.22,-0.04,P=0.036.No severe adverse events were reported in any study.Conclusions:This meta-analysis showed that acupuncture is a safe and effective treatment for patients with breast cancer with aromatase inhibitor-induced arthralgia during the course of 6 weeks.Improvements in the blinding method and clarification of the total treatment recommendations and intervals need to be explored further.展开更多
Isotropic laser cooling(ILC)is widely recognized for its distinct advantages and demonstrates significant potential in quantum precision measurements and quantum sensing technologies.The morphology and density distrib...Isotropic laser cooling(ILC)is widely recognized for its distinct advantages and demonstrates significant potential in quantum precision measurements and quantum sensing technologies.The morphology and density distribution of the cold atomic cloud generated by ILC are strongly influenced by the distribution of cooling light and the structural geometry of the cavity,making precise characterization and optimization of cold atom distribution essential for practical applications.In this paper,we present an innovative flat diffuse cavity design with the dimensions approximating a quasi-two-dimensional configuration,which generates a sheet-like isotropic laser field inside the cavity through diffuse reflections.We thoroughly characterized the system’s performance under different optical parameter settings.A two-dimensional(2D)movable detection system was employed to detect the quasi-two-dimensional distribution of cold atoms.These results demonstrate the ability of ILC to produce diverse morphological and density distributions of cold atoms,which we anticipate will be suitable for quantum sensing.展开更多
This work uses advanced remote sensing to precisely extract hydrological information,supporting transmission network planning.High-resolution water body mapping lets designers optimize routes to avoid ecologically sen...This work uses advanced remote sensing to precisely extract hydrological information,supporting transmission network planning.High-resolution water body mapping lets designers optimize routes to avoid ecologically sensitive areas,achieving environmental protection,cost efficiency,and enhanced operational safety.The methodology provides a scalable,replicable framework for intelligent obstacle avoidance in power grid development,applicable to other regions and sectors with similar planning needs.展开更多
Topological superconductor islands are thought to be the building blocks of topological quantum bits.We produced single-crystalline VSi_(x)islands with well-defined side facets and island size more than 200nm using mo...Topological superconductor islands are thought to be the building blocks of topological quantum bits.We produced single-crystalline VSi_(x)islands with well-defined side facets and island size more than 200nm using molecular beam epitaxy on Si substrate heated to 950℃throughout the growth process.By means of scanning tunneling spectroscopy,we revealed dynamical Coulomb blockade and superconductivity on isolated islands and on islands being connected by superconducting wetting layer respectively.Bi_(2)Te_(3)films were further deposited on VSi_(x)islands.Robust and homogenous proximity effect induced superconductivity was observed on various facets of the Bi_(2)Te_(3)/VSi_(x)hetero-nanostructure.Furthermore,our high-resolution spectroscopy identified Bosonic mode excitations on the topological superconductor islands.These results may establish a playground for the vortex Majorana islands.展开更多
基金supported by National Key Research and Development Program of China(grant No.2022YFC0867500,2020YFA0712102)National Natural Science Foundation of China(grant No.82151224,82202492)+3 种基金Fundamental Research Funds for Central Universities(grant No.QNTD 2023-01)Nutrition and Care of Maternal&Child Research Project of Biostime Institute of Nutrition&Care(grant No.2023BINCMCF28)State Key Laboratory of Pathogen and Biosecurity of China(grant No.SKLPBS2438)State Key Laboratory of Component-based Chinese Medicine(grant No.CBCM2024204).
文摘Traditional Chinese medicine has unique advantages in preventing and treating COVID-19,and Fuzheng Jiedu decoction(FZJDD)was reported to be effective against COVID-19 in clinical trials.To investigate the potential mechanisms and material basis of FZJDD against SARS-CoV-2,we performed SARS-CoV-2 target protein inhibition analyses and a metabolite full spectrum analysis of FZJDD.Interestingly,FZJDD was found to block the binding of SARS-CoV-2 Spike protein with the receptor ACE2 and inhibit the activity of SARS-CoV-23CLpro.Moreover,FZJDD can regulate the TNF and the MAPK signaling pathway to inhibit the inflammatory response and alleviate the“cytokine storm”.A total of 298 compounds were identified in FZJDD,among them,caffeic acid and octyl gallate were found to be the potential therapeutic agents of FZJDD.Importantly,FZJDD can broadly inhibit coronavirus infection,including SADS-CoV and porcine epidemic diarrhea virus(PEDV)live viruses,SARS-CoV,MERS-CoV,and SARS-CoV-2 mutant pseudotyped viruses,which might be ascribed to the broad-spectrum anti-coronavirus activity of caffeic acid and octyl gallate.In conclusion,this study reveals the mechanisms and material basis of FZJDD against SARS-CoV-2 and identifies the broadspectrum anti-coronavirus activity of FZJDD for the first time.Our data provide empirical evidence for the development and application of FZJDD.
基金supported by the National Key Research and Development Program of China(Nos.2023YFC2809304 and 2022YFC2805904).
文摘Obtaining high-quality 10000-meter-deep seafloor sediment samples is the prerequisite and foundation for conducting deep-sea geological and environmental scientific research.The bottom structure of the deep seafloor is complex,and the physical and mechanical properties and disturbance resistance of sediments of different lithologies vary greatly,so the sediment sampler inevitably disturbs the sediments during the sampling process and affects the quality of the sediment samples.A new type of deep-sea sediment pressure retaining sampler is introduced,the force state and elastic–plastic state of the sampler destroying sediments are analyzed,the radial disturbance model of sediment coring based on the spherical cavity expansion theory is established,and the radius of sediments undergoing plastic deformation around the spherical holes is used as an index for evaluating the radial disturbance of sediments.The distribution of stress and strain fields in the sediments during the expansion of the spherical cavity and the influencing factors of the radius of the radially disturbed region(plastic region)are analyzed using an arithmetic example,and the influence law is analyzed.A sediment disturbance experimental platform was built indoors to simulate the sediment coring process.The radial stress field and pore water pressure of the sediment during the coring process were monitored by sensors arranged inside the sediment,and the results of indoor tests verified the correctness of the perturbation theory model.The sampler was carried aboard the deep-sea manned submersible FENDOUZHE and conducted on-site tests at depths of 9298.4 and 9142.8 m in the Kuril-Kamchatka Trench.Pressure-preserved sediment samples were retrieved,with preservation rates of 94.21%and 92.02%,respectively,which are much higher than the current technical indicator of 80%of pressure-holding ratio for deep-sea sediments.The retrieved sediments have obvious stratification characteristics and little disturbance.
基金financially supported by the Science and Technology Innovation Program of Hunan Province,China(No.2023RC3055)the Natural Science Foundation of Hunan Province,China(Nos.2023JJ30671,2020JJ4114)+5 种基金the Natural Science Foundation of Changsha City,China(No.Kq2208264)National Key Project of Research and Development Plan of China(Nos.2021YFC1910505,2021YFC1910504)the Young Core Teacher Foundation of Hunan Province,China(No.150220001)Key Research and Development Program of Guangdong Province,China(No.2020B010186002)the National Natural Science Foundation of China(No.51601229)the Key-Area Research and Development Program of Foshan City,China(No.2230032004640).
文摘The corrosion behavior and microstructure characteristics of metal inert gas(MIG)welded dissimilar joints of the 6005A alloy modified with Sc(designated as 6005A+Sc)and the 5083 alloy were investigated using corrosion tests and microscopy techniques.Results show that the dissimilar joints exhibit strong stress corrosion cracking(SCC)resistance,maintaining substantial strength during slow strain rate tensile tests.Notably,the heat-affected zone(HAZ)and base metal(BM)on the 6005A+Sc side show superior performance in terms of inter-granular corrosion(IGC)and exfoliation corrosion(EXCO)compared to the corresponding zones on the 5083 side.The lower corrosion resistance of the 5083-BM and the 5083-HAZ can be attributed to the presence of numerous Al_(2)Mg_(3)phases and micro-scaled Al_(6)(Mn,Fe)intermetallics,mainly distributed along the rolling direction.Conversely,the enhanced corrosion resistance of the 6005A+Sc-BM and the 6005A+Sc-HAZ can be attributed to the discontinuously distributed grain boundary precipitates(β-Mg_(2)Si),the smaller grain size,and the reduced corrosive current density.
基金supported by the National Key R&D Program of China(2022YFA1602200)the International Partnership Program of the Chinese Academy of Sciences(211134KYSB20200057).
文摘The study of the charge conjugation and parity(CP)violation of hyperon is the precision frontier for probing possible new CP violation sources beyond the standard model(SM).With the large number of quantum entangled hyperonantihyperon pairs to be produced at Super Tau-Charm Facility(STCF),the CP asymmetry of hyperon is expected to be tested with a statistical sensitivity of 10^(−4) or even better.To cope with the statistical precision,the systematic effects from various aspects are critical and need to be studied in detail.In this paper,the sensitivity effects on the CP violation parameters associated with the detector resolution,including those of the position and momentum,are studied and discussed in detail.The results provide valuable guidance for the design of STCF detector.
基金supported by the Strategic Research and Consultation Project of the Chinese Academy of Engineering(2023-PP-05,2025-PP-15)。
文摘Traditional Chinese medicine(TCM)possesses original theoretical advantages and thousands of years of human experience of its application and plays an important role in the prevention and treatment of infectious diseases and major chronic illnesses.With the support of national policies,the advantages of the“five major resources”of TCM are gradually being realized,ushering the enterprise and industry of TCM into a new era of high-quality development.
文摘Through three millennia of practice,Traditional Chinese Medicine(TCM)has evolved by integrating knowledge from diverse disciplines,forging a distinct developmental path that respects its ancient foundations while incorporating innovation.TCM has achieved significant breakthroughs in elucidating its theoretical foundations using contemporary scientific methodologies,through the implementation of modernization initiatives over the past three decades.The TCM modernization program has yielded continuous innovations,propelling TCM into a high-quality development stage across both clinical practice and industrial applications.Notably,these advances have enhanced global recognition and adoption of TCM.
基金supported by the Graduate Education Innovation Program of Shanxi Province,China(No.2024KY575)the National Natural Science Foundation of China(No.52075501)。
文摘A Mg−13Gd−4Y−2Zn−0.5Zr(wt.%)alloy was selected as the experimental material.After preheating,initial microstructures with different long-period stacking ordered(LPSO)phase andβ'phase distributions were obtained,and hot compression experiments were conducted.The effects of secondary phases on microstructure and dynamic recrystallization(DRX)behavior were investigated.The results revealed that the average grain size decreased from 70.93 to 31.53μm,and the DRX volume fraction increased from 20.3%to 40.1%after the pre-annealing treatment.The average grain size of Sample S0(pre-aging)decreased to 39.29μm,and the DRX volume fraction increased by 79.8%,whereas the average grain size of Samples S1−S7(pre-annealing+aging)slightly increased,and the DRX volume fraction slightly decreased.With increasing pre-annealing time,the width of the lamellar LPSO phase increased,which generated less dynamic precipitation during deformation and weakened the pinning effect.The DRX mechanism transformed from continuous dynamic recrystallization(CDRX,pre-homogenization sample)to particle-stimulated nucleation(PSN)+discontinuous dynamic recrystallization(DDRX,pre-annealing sample).After the pre-aging treatment,the reticular structure effectively pinned the dislocations and delayed the nucleation and growth of DRX grains.The DRX mechanism changed from the original CDRX+PSN(pre-aging sample)to DDRX(pre-annealing+aging sample).
基金Project supported by the National Key Research&Development Program of China(Grant Nos.2019YFA0308600 and 2020YFA0309000)the National Natural Science Foundation of China(Grant Nos.92365302,92065201,22325203,92265105,12074247,12174252,52102336)+2 种基金the Strategic Priority Research Program of Chinese Academy of Sciences(Grant No.XDB28000000)the Science and Technology Commission of Shanghai Municipality(Grant Nos.2019SHZDZX01,19JC1412701,20QA1405100,24LZ1401000,LZPY2024-04)financial support from the Innovation Program for Quantum Science and Technology(Grant No.2021ZD0302500)。
文摘Manipulating and braiding Majorana zero modes(MZM)are a critical step toward realizing topological quantum computing.The primary challenge is controlling the vortex,which hosts the MZM,within a superconducting film in a spatially precise manner.To address this,we developed a magnetic force-based vortex control technology using the STM system with a self-designed four-electrode piezo-scanner tube and investigated vortex manipulation on the NbSe_(2) superconducting film.We employed ferromagnetic tips to control the movement of vortex array induced by the tip's remanent magnetism.A magnetic core solenoid device was integrated into the STM system and a strong magnetic tip demagnetization technique was developed,providing a viable technical solution for further enabling single vortex manipulation.
基金supported by Yunnan Fundamental Research Projects(No.202401CF070085)Yunnan Engineering Research Projects(No.2023-XMDJ-00617273)+1 种基金Industrial Support Plan Project of Gansu Provincial Education Department(No.2024CYZC-22)the National Natural Science Foundation of China(No.52064032).
文摘A novel approach of decorating graphene surface with graphene quantum dots(abbreviated as GQDs@Gr)was presented to achieve superior tribological properties in Gr/Cu composites.The prepared GQDs@Gr hybrid reinforcement possessed superior dispersion and had achieved strong interface bonding with Cu matrix.GQDs@Gr/Cu composite showed a good combination of wear resistance and electrical conductivity due to the synergistic effect of GQDs and Gr.Specifically,the coefficient of friction(COF)was reduced to 0.3,the wear rate(WR)was 2.13×10^(-5) mm^(3)·N^(−1)·m^(−1)(only a quarter of pure copper),and maintained the electrical conductivity of 96.5%IACS(international annealed copper standard).As a result,delamination,fracture,and plow furrows on the wear surface of Gr/Cu composite indicate that fatigue and abrasive adhesive wear are the main wear mechanisms.Wear surface lubrication film and strong interface bonding ensure better comprehensive performance of GQDs@Gr/Cu composite.
基金supported Major Science and Technology Innovation Project of Shandong Province(2023CXGC010707)Natural Science Foundation of Shandong Province(Grant No.ZR2022MC172 and ZR2024MC114)+1 种基金Shandong Province Rural Revitalization Science and Technology Innovation Enhancement Action Plan(Grant No.2023TZXD043 and 2023TZXD069)Scientific Research Foundation for High-Level Talents of Qingdao Agricultural University(663/1120085 and 663/1120084).
文摘Oil bodies(OBs)are the lipid-storage organelle in oilseed,and their interface properties are crucial for oilseed processing.To elucidate the effect of interfacial proteins on the functional properties of high-oleic and normal peanut OBs,OBs were extracted using ultrasound-assisted aqueous enzymatic extraction(AEE),and the effects of ultrasonic power(100–500 W)and extraction time(0–30 min)on the interface properties were investigated.These results indicate that the interfacial protein content and interface properties of OBs can be significantly affected by ultrasonic treatment.The interfacial protein content of high-oleic peanut OBs increased from 88.25%to 91.95%after ultrasonic treatment,which was 1.4 times that of normal peanuts OBs.The emulsifying activity index(EAI)and emulsion stability index(ESI)values of both peanut OBs increased with the increase in ultrasonic power and extraction time.These results suggest that the emulsification ability of OBs may be closely related to the interfacial protein content and therefore can be regulated by altering the interfacial protein content using ultrasonic treatment.However,the particle size of OBs tends to increase under low ultrasonic power(0–200 W)owing to the increase in the interfacial protein content and aggregation effects,whereas it decreases under high ultrasonic power(300 W–500 W)due to cavitation effects.This pattern of change in particle size was also confirmed by confocal laser scanning microscopy,which indicated that high ultrasonic power suppressed the contribution of the interfacial protein content to the particle size,but still improved the emulsification ability of the OBs by reducing the particle size and increasing the interfacial tension.Therefore,regulating the interfacial protein content of peanut OBs by adjusting ultrasonic power is a promising way to improve their functional properties.
基金supported by the National Key R&D Program of China(2019YFC1712200-2019YFC1712204)the National Natural Science Foundation of China(82004467,82030125)the Youth Project of Traditional Chinese Medicine-Integration of Traditional and Western Medicine Projects of Tianjin Health Commission(No.2025027).
文摘Objective:Breast cancer is the second most prevalent cause of mortality in women and the predominant malignancy type.However,breast cancer treatment faces challenges in managing aromatase inhibitor-induced arthralgia.Aromatase inhibitors have been shown to decrease recurrence risk in hormone receptor-positive cases;however,joint discomfort remains the primary adverse effect.Randomized clinical trials have evaluated the therapeutic outcomes of acupuncture for medication-related musculoskeletal complications.This comprehensive analysis sought to elucidate both the therapeutic efficacy and placebo responses associated with acupuncture intervention.Methods:Two reviewers searched for randomized controlled trials(RCTs)in four English(PubMed,Embase,Web of Science,and the Cochrane Library)and four Chinese databases(CNKI,Wanfang Database,VIP,and SinoMed)from their inception to May 31,2024.Methodological quality was assessed using the Cochrane risk of bias tool.Data were synthesized using random effects models and presented with forest plots.Results:Seven trials involving 604 patients were included.The primary outcome and Brief Pain Inventory(BPI)score differed between the acupuncture and control groups(sham acupuncture or usual medication)in three subscales over the course of 6 weeks:worst pain:standardized mean difference(SMD)=-1.18,95%confidence interval(CI):-1.74,-0.63,P<0.001;painrelated interference:SMD=-0.87,95%CI:-1.70,-0.05,P=0.038;pain severity:SMD=-0.63,95%CI:-1.22,-0.04,P=0.036.No severe adverse events were reported in any study.Conclusions:This meta-analysis showed that acupuncture is a safe and effective treatment for patients with breast cancer with aromatase inhibitor-induced arthralgia during the course of 6 weeks.Improvements in the blinding method and clarification of the total treatment recommendations and intervals need to be explored further.
基金supported by the National Natural Science Foun-dation of China(Grant No.92165107)the China Postdoctoral Science Foundation(Grant No.2022M723270)the National Defense Basic Scientific Research Pogram of China。
文摘Isotropic laser cooling(ILC)is widely recognized for its distinct advantages and demonstrates significant potential in quantum precision measurements and quantum sensing technologies.The morphology and density distribution of the cold atomic cloud generated by ILC are strongly influenced by the distribution of cooling light and the structural geometry of the cavity,making precise characterization and optimization of cold atom distribution essential for practical applications.In this paper,we present an innovative flat diffuse cavity design with the dimensions approximating a quasi-two-dimensional configuration,which generates a sheet-like isotropic laser field inside the cavity through diffuse reflections.We thoroughly characterized the system’s performance under different optical parameter settings.A two-dimensional(2D)movable detection system was employed to detect the quasi-two-dimensional distribution of cold atoms.These results demonstrate the ability of ILC to produce diverse morphological and density distributions of cold atoms,which we anticipate will be suitable for quantum sensing.
基金The State Grid Independent Research and Development Project(Project No.:CY1124SHF02)National Natural Science Foundation of China(Project No.:52320105003)the Fundamental Research Funds for the Central Universities(Project No.:E3ET1803)。
文摘This work uses advanced remote sensing to precisely extract hydrological information,supporting transmission network planning.High-resolution water body mapping lets designers optimize routes to avoid ecologically sensitive areas,achieving environmental protection,cost efficiency,and enhanced operational safety.The methodology provides a scalable,replicable framework for intelligent obstacle avoidance in power grid development,applicable to other regions and sectors with similar planning needs.
基金supported by the National Natural Science Foundation of China(Grant Nos.92365302,92065201,12488101,22325203,92265105,12074247,12174252,and 52102336)the Ministry of Science and Technology of China(Grant Nos.2019YFA0308600 and 2020YFA0309000)+1 种基金the Science and Technology Commission of Shanghai Municipality(Grant Nos.2019SHZDZX01,19JC1412701,20QA1405100,24LZ1401000,and LZPY2024-04)the financial support from Innovation Program for Quantum Science and Technology(Grant No.2021ZD0302500)。
文摘Topological superconductor islands are thought to be the building blocks of topological quantum bits.We produced single-crystalline VSi_(x)islands with well-defined side facets and island size more than 200nm using molecular beam epitaxy on Si substrate heated to 950℃throughout the growth process.By means of scanning tunneling spectroscopy,we revealed dynamical Coulomb blockade and superconductivity on isolated islands and on islands being connected by superconducting wetting layer respectively.Bi_(2)Te_(3)films were further deposited on VSi_(x)islands.Robust and homogenous proximity effect induced superconductivity was observed on various facets of the Bi_(2)Te_(3)/VSi_(x)hetero-nanostructure.Furthermore,our high-resolution spectroscopy identified Bosonic mode excitations on the topological superconductor islands.These results may establish a playground for the vortex Majorana islands.
