Corticotomy is a clinical procedure to accelerate orthodontic tooth movement characterized by the regional acceleratory phenomenon(RAP).Despite its therapeutic effects,the surgical risk and unclear mechanism hamper th...Corticotomy is a clinical procedure to accelerate orthodontic tooth movement characterized by the regional acceleratory phenomenon(RAP).Despite its therapeutic effects,the surgical risk and unclear mechanism hamper the clinical application.Numerous evidences support macrophages as the key immune cells during bone remodeling.Our study discovered that the monocyte-derived macrophages primarily exhibited a pro-inflammatory phenotype that dominated bone remodeling in corticotomy by CX3CR1CreERT2;R26GFP lineage tracing system.Fluorescence staining,flow cytometry analysis,and western blot determined the significantly enhanced expression of binding immunoglobulin protein(BiP)and emphasized the activation of sensor activating transcription factor 6(ATF6)in macrophages.Then,we verified that macrophage specific ATF6 deletion(ATF6f/f;CX3CR1CreERT2 mice)decreased the proportion of pro-inflammatory macrophages and therefore blocked the acceleration effect of corticotomy.In contrast,macrophage ATF6 overexpression exaggerated the acceleration of orthodontic tooth movement.In vitro experiments also proved that higher proportion of pro-inflammatory macrophages was positively correlated with higher expression of ATF6.At the mechanism level,RNA-seq and CUT&Tag analysis demonstrated that ATF6 modulated the macrophage-orchestrated inflammation through interacting with Tnfαpromotor and augmenting its transcription.Additionally,molecular docking simulation and dual-luciferase reporter system indicated the possible binding sites outside of the traditional endoplasmic reticulum-stress response element(ERSE).Taken together,ATF6 may aggravate orthodontic bone remodeling by promoting Tnfαtranscription in macrophages,suggesting that ATF6 may represent a promising therapeutic target for non-invasive accelerated orthodontics.展开更多
The Opinions on Acceleration of Implementation of Free Trade Zone Strategy,which was issued by the State Council in the end of 2015,clearly proposed the establishment of high standard global FTA(free trade zone)networ...The Opinions on Acceleration of Implementation of Free Trade Zone Strategy,which was issued by the State Council in the end of 2015,clearly proposed the establishment of high standard global FTA(free trade zone)network that is based on surrounding countries regions and covers the'Belt and Road'region.As of now,China has signed 14 FTA agreements with 22 countries and regions,including ASEAN(Association of Southeast展开更多
The results from a recent s tudy show that in the past five years,the transfer of rural labourers from agri-cultural work to non-agricultural sectors has accelerated and some 50 million rural labourers have made the s...The results from a recent s tudy show that in the past five years,the transfer of rural labourers from agri-cultural work to non-agricultural sectors has accelerated and some 50 million rural labourers have made the switch.This figure was produced by the State Statistical Bureau(SSB)based on data from Chind s 1%popu-1ation sample survey and annual popu-lation statistics.展开更多
Scientific progress has greatly improved the technical level of China’s highway and waterway transport in the past ten years. In order to modernize communications and transport and raise competitive power of enterpri...Scientific progress has greatly improved the technical level of China’s highway and waterway transport in the past ten years. In order to modernize communications and transport and raise competitive power of enterprises as early as possible, the Ministry of Communications has decided to add more scientific investment, planning to double the annual expense on scientific investment during the Ninth Five-year Plan period compared to the Eighth Five-year展开更多
Background Cellular repressor of ElA-stimulated genes(CREG) is homeostatic modulated gene,which regulate a number of cellular processes,including cell differentiation, motility and survival.Previous studies have demon...Background Cellular repressor of ElA-stimulated genes(CREG) is homeostatic modulated gene,which regulate a number of cellular processes,including cell differentiation, motility and survival.Previous studies have demonstrated that CREG was expressed in all three germ layers,suggesting that it might act as a vital regulator during embryonic developing.The aim of the present study was to investigate the role of CREG in an embryonic stem cell(ESC) differentiation model that recapitulates the developmental steps of vasculogenesis.Methods The ES cells were stably transfected either pCXN2-FLAG-CREG-IRES-EGFP plasmid or pDS1- shRNA-CREG plasmid to produce the CREG+/ES cells and CREG-siRNA/ES cells,respectively.Vasculogenesis was detected by whole mount immunostainings for CD31.Dil labeled acLDL staining assay was used to detect branching pseudopods in cultures in Matrigel.Real-time PCR and Western blot analysis were employed to determine expressions of VEGF and Flk-1.Results CREG +/ES-derived embryoid bodies(EBs) were found to form spontaneously a primitive vascular network after 6 days of differentiation.In contrast, wildtype EBs exhibit theirs vasculogenesis until 13 days of differentiation by whole mount immunostainings for CD31. CREG +/EBs developed more rapidly branching pseudopods at 9 days compared with that of wildtype EBs by Dil labeled acLDL staining assay.In contrast,CREG-siRNA/ES exhibits an undifferentiated morphogenesis associated with an increase in apoptotic cells in spite of being derived from LIF and feeder layers.Administration of CREG-siRNA/ES cells with recombinant CREG protein rescued the phenomena that CREG boosted vasculogenesis in a dose-dependent fasion. Mechanically,Real-time PCR and Western blot analysis revealed the expressions both VEGF and Flk-1 significantly in- creased in CREG+/EBs.Moreover,after treatment of CREG+ /EBs with neurtralizing antibody against VEGF,the rapid vasculogenesis was significantly repressed.Conclusions Our data strongely demonstrate that CREG play a pivotal role in accelerating vasculogenesis in development of ES cells. VEGF,as its important downstream effector,mediated this bio-function.展开更多
Scientific progress has greatly improved the technical level of China’shighway and waterway transport in the past decade.In order tomodernize communications and transport and raise competitivepower of enterprises as ...Scientific progress has greatly improved the technical level of China’shighway and waterway transport in the past decade.In order tomodernize communications and transport and raise competitivepower of enterprises as early as possible,the Ministry of Communicationshas decided to add more scientific investment,planning to double theannual expense on scientific investment during the Ninth Five-yearPlan period compared to the Eighth Five-year Plan period.Theministry will also conduct cooperative research,development,designand production with foreign scientific institutions and internationalorganizations.展开更多
A cosmological model with both acceleration and deceleration is proposed, rewriting and reinterpreting Einstein's Field Equations, with a variable cosmological parameter A denoting energy due to space-time, which may...A cosmological model with both acceleration and deceleration is proposed, rewriting and reinterpreting Einstein's Field Equations, with a variable cosmological parameter A denoting energy due to space-time, which may be considered as "vacuum energy" at the "beginning" of the universe. The cosmological constant is replaced by a variable cosmological parameter, which is a measure of the energy of space-time that could be converted to energy of matter and radiation and vice versa.展开更多
The doubled haploid(DH)technique accelerates homozygosity by inducing chromosome doubling in haploid embryos derived from hybrid plants.This approach offers significant advantages over conventional rice breeding metho...The doubled haploid(DH)technique accelerates homozygosity by inducing chromosome doubling in haploid embryos derived from hybrid plants.This approach offers significant advantages over conventional rice breeding methods by shortening the breeding cycle and enabling rapid development of pure homozygous lines.Anther culture(AC)has been established as an efficient and successful method for producing DH plants via androgenesis in rice.However,despite its success in japonica rice.展开更多
The rapid expansion of lake area in the Tibetan Plateau(TP)has attracted a considerable amount of concern in recent decades.Limited evidence has suggested that climate warming and the cryosphere change are the most pr...The rapid expansion of lake area in the Tibetan Plateau(TP)has attracted a considerable amount of concern in recent decades.Limited evidence has suggested that climate warming and the cryosphere change are the most prominent contributors to lake expansion.The widespread changes in lake area result from a combination of increased precipitation,melting glaciers,permafrost degradation,and changes in other components of terrestrial water.However,debate remains as to whether melting glaciers or increased precipitation have a greater impact on lake expansion.Varied topography and limited datasets hinder the ability to perform extensive research,and there is currently no definitive conclusion on the issue.展开更多
We investigate the null tests of cosmic accelerated expansion by using the baryon acoustic oscillation(BAO)data measured by the dark energy spectroscopic instrument(DESI)and reconstruct the dimensionless Hubble parame...We investigate the null tests of cosmic accelerated expansion by using the baryon acoustic oscillation(BAO)data measured by the dark energy spectroscopic instrument(DESI)and reconstruct the dimensionless Hubble parameter E(z)from the DESI BAO Alcock-Paczynski(AP)data using Gaussian process to perform the null test.We find strong evidence of accelerated expansion from the DESI BAO AP data.By reconstructing the deceleration parameter q(z) from the DESI BAO AP data,we find that accelerated expansion persisted until z■0.7 with a 99.7%confidence level.Additionally,to provide insights into the Hubble tension problem,we propose combining the reconstructed E(z) with D_(H)/r_(d) data to derive a model-independent result r_(d)h=99.8±3.1 Mpc.This result is consistent with measurements from cosmic microwave background(CMB)anisotropies using the ΛCDM model.We also propose a model-independent method for reconstructing the comoving angular diameter distance D_(M)(z) from the distance modulus μ,using SNe Ia data and combining this result with DESI BAO data of D_(M)/r_(d) to constrain the value of r_(d).We find that the value of r_(d),derived from this model-independent method,is smaller than that obtained from CMB measurements,with a significant discrepancy of at least 4.17σ.All the conclusions drawn in this paper are independent of cosmological models and gravitational theories.展开更多
Laser wakefield accelerators(LWFAs)offer acceleration gradients up to 1000 times higher than those of conventional radio-frequency accelerators,offering a pathway to significantly more compact and cost-effective accel...Laser wakefield accelerators(LWFAs)offer acceleration gradients up to 1000 times higher than those of conventional radio-frequency accelerators,offering a pathway to significantly more compact and cost-effective accelerator systems.This breakthrough opens up new possibilities for laboratory-scale light sources.All-optical inverse Compton scattering(AOCS)sources driven by LWFAs produce high-brightness,quasimonochromatic X rays with micrometer-scale source sizes,delivering the spatial coherence and resolution required for X-ray phase-contrast imaging(XPCI).These features position AOCS X-ray sources as promising tools for applications in biology,medicine,physics,and materials science.However,previous AOCS-based imaging studies have primarily focused on X-ray absorption imaging.In this work,we report successful experimental demonstrations of edge-enhanced in-line XPCI using energy-tunable,quasi-monochromatic AOCS X rays.With a spatial resolution of~20μm,our results clearly show the potential of high-resolution,AOCS-based XPCI applications.展开更多
In response to the increasing demand for hadron therapy facilities,significant efforts have been directed toward enhancing the performance of high-gradient and high-transmission injectors for light ion beams.For carbo...In response to the increasing demand for hadron therapy facilities,significant efforts have been directed toward enhancing the performance of high-gradient and high-transmission injectors for light ion beams.For carbon ion irradiations,which offer greater radiobiological efficiency in tumor treatment,recent research has focused on developing high-production sources of fully stripped C^(6+)ions and highly compact,high-frequency RFQ cavities.This study explores the design possibilities of a carbon ion acceleration section using 750 MHz Interdigital H-mode Drift Tube Linacs(IH-DTLs)as a high-efficiency solution for accelerating ions in the 5-10 MeV per nucleon energy range.A particle-tracking routine based on the TRAVEL code was developed to design the acceleration line through a tailored KONUS-type configuration.Three design solutions were proposed and compared,exploring different alternatives regarding the use of a MEBT to match the output beam phase space of the RFQ to the optics of the line,as well as varying considerations for magnetic systems to focus the beam.Additionally,the compatibility of the proposed solutions with the existing design of the carbon ion bent-linac for hadron therapy was assessed.展开更多
Purpose-The utilization of alkali-free accelerators,primarily based on aluminum sulfate,in shotcrete often leads to significant shrinkage and cracking,jeopardizing long-term durability.This study aims to mitigate this...Purpose-The utilization of alkali-free accelerators,primarily based on aluminum sulfate,in shotcrete often leads to significant shrinkage and cracking,jeopardizing long-term durability.This study aims to mitigate this issue by investigating the efficacy of silica fume(SF)and fly ash(FA),individually and combined,in controlling the shrinkage deformation of shotcrete.Design/methodology/approach-Shotcrete mixtures were prepared with cement partially replaced by SF,FA,or their combination(SF-FA).Aluminum sulfate was used as an accelerator.The shrinkage behavior under sealed and dry conditions was monitored.The underlying mechanisms were elucidated through hardened airvoid analysis,mercury intrusion porosimetry(MIP),and internal humidity tracking.Findings-Contrary to some previous studies,both individual and combined incorporation of mineral admixtures reduced the 28-day shrinkage.The SF-FA composite exhibited the most substantial reduction(23.72%sealed,17.76%dry),followed by SF alone(18.11%sealed)and FA alone(11.35%sealed).Mechanism analysis revealed that the admixtures refined the pore structure,reduced the volume of harmful pores,and,crucially,optimized the air-void system by increasing the population of fine bubbles.This created an internal buffering effect that alleviates capillary stress.The synergistic effect in the SF-FA group is attributed to complementary pore-filling at dual scales.Originality/value-This work demonstrates that,within an aluminum sulfate-accelerated shotcrete system,silica fume can effectively reduce shrinkage when its pore-refining effect is counterbalanced by a welloptimized micro-bubble network.It provides the first comprehensive evidence of the synergistic shrinkagereducing mechanism of SF and FA in such systems,offering a practical strategy for mix design optimization to enhance the volume stability of shotcrete.展开更多
To address the challenges of rapid bit failure and high drilling costs associated with hard limestone in Sichuan Basin of China,we conducted rock-breaking experiments and simulations of shaped(cylindrical,ridge,and ch...To address the challenges of rapid bit failure and high drilling costs associated with hard limestone in Sichuan Basin of China,we conducted rock-breaking experiments and simulations of shaped(cylindrical,ridge,and chopper)cutters.Rock mechanics,drillability,and acoustic emission indentation tests revealed the drilling resistance characteristics of the limestone:average uniaxial compressive strength of 202.472 MPa,tensile strength of 7.092 MPa,and drillability of 7.866.We evaluated the performance differences between the shaped cutters before introducing an efficient and innovative finite-discrete-infinite element method(FDIEM)to establish an interaction model between the shaped cutters and limestone.The simulation results indicated the following:(1)The shaped cutters demonstrated superior rock-breaking performance compared to the traditional cylindrical cutter.(2)Compared with the cylindrical cutter,the ridge cutter yielded the lowest peak indentation force and mechanical specific energy,with reductions of 8.71%and 33.83%,respectively.This confirmed that the ridge cutter had the optimal tooth profile for the target formation.Its rock-breaking mechanism relied on the convex edges to induce localized high stress in the rock,which enabled efficient rock fragmentation via a plowing mode while mitigating frictional resistance from cuttings.(3)The novel chopper cutter with its secondary step surface exerted a buffering effect on the cuttings,thereby achieving high cutting stability.This study provides theoretical and technical support for the design of personalized drill bits and the acceleration of the rate of penetration(ROP)in deep hard rock formations.展开更多
X-rays are widely used in the non-destructive testing(NDT)of electrical equipment.Radio frequency(RF)electron linear accelerators can generate MeV high-energy X-rays with strong penetrating ability;however,the system ...X-rays are widely used in the non-destructive testing(NDT)of electrical equipment.Radio frequency(RF)electron linear accelerators can generate MeV high-energy X-rays with strong penetrating ability;however,the system generally has a large scale,which is not suitable for on-site testing.Compared with the S-band(S-linac)at the same stage of beam energy,the accelerator working in the X-band(X-linac)can compress the facility scale by over 2/3 in the longitudinal direction,which is convenient for the on-site NDT of electrical equipment.To address the beam quality and design complexity simultaneously,the non-dominated sorting genetic algorithmⅡ(NSGA-Ⅱ),which is a multi-objective genetic algorithm(MOGA),was developed to optimize the cavity chain design of the X-linac.Additionally,the designs of the focusing coils,electron gun,and RF couplers,which are other key components of the X-linac,were introduced in this context.In particular,the focusing coil distributions were optimized using a genetic algorithm.Furthermore,after designing such key components,PARMELA software was adopted to perform beam dynamics calculations with the optimized accelerating fields and magnetic fields.The results show that the beam performance was obtained with a capture ratio of more than 90%,an energy spread of less than 10%,and an average energy of approximately 3 MeV.The design and simulation results indicate that the proposed NSGAⅡ-based approach is feasible for X-linac accelerator design.Furthermore,it can be generalized as a universal technique for industrial electron linear accelerators provided that specific optimization objectives and constraints are set according to different application scenarios and requirements.展开更多
基金supported by the National Natural Science Foundation of China(82071143,82371000,82270361)Key Research and Development Program of Jiangsu Province(BE2022795)+2 种基金the Postgraduate Research&Practice Innovation Program of Jiangsu Province(KYCX22_1801)the Jiangsu Province Capability Improvement Project through the Science,Technology and Education-Jiangsu Provincial Research Hospital Cultivation Unit(YJXYYJSDW4)Jiangsu Provincial Medical Innovation Center(CXZX202227).
文摘Corticotomy is a clinical procedure to accelerate orthodontic tooth movement characterized by the regional acceleratory phenomenon(RAP).Despite its therapeutic effects,the surgical risk and unclear mechanism hamper the clinical application.Numerous evidences support macrophages as the key immune cells during bone remodeling.Our study discovered that the monocyte-derived macrophages primarily exhibited a pro-inflammatory phenotype that dominated bone remodeling in corticotomy by CX3CR1CreERT2;R26GFP lineage tracing system.Fluorescence staining,flow cytometry analysis,and western blot determined the significantly enhanced expression of binding immunoglobulin protein(BiP)and emphasized the activation of sensor activating transcription factor 6(ATF6)in macrophages.Then,we verified that macrophage specific ATF6 deletion(ATF6f/f;CX3CR1CreERT2 mice)decreased the proportion of pro-inflammatory macrophages and therefore blocked the acceleration effect of corticotomy.In contrast,macrophage ATF6 overexpression exaggerated the acceleration of orthodontic tooth movement.In vitro experiments also proved that higher proportion of pro-inflammatory macrophages was positively correlated with higher expression of ATF6.At the mechanism level,RNA-seq and CUT&Tag analysis demonstrated that ATF6 modulated the macrophage-orchestrated inflammation through interacting with Tnfαpromotor and augmenting its transcription.Additionally,molecular docking simulation and dual-luciferase reporter system indicated the possible binding sites outside of the traditional endoplasmic reticulum-stress response element(ERSE).Taken together,ATF6 may aggravate orthodontic bone remodeling by promoting Tnfαtranscription in macrophages,suggesting that ATF6 may represent a promising therapeutic target for non-invasive accelerated orthodontics.
文摘The Opinions on Acceleration of Implementation of Free Trade Zone Strategy,which was issued by the State Council in the end of 2015,clearly proposed the establishment of high standard global FTA(free trade zone)network that is based on surrounding countries regions and covers the'Belt and Road'region.As of now,China has signed 14 FTA agreements with 22 countries and regions,including ASEAN(Association of Southeast
文摘The results from a recent s tudy show that in the past five years,the transfer of rural labourers from agri-cultural work to non-agricultural sectors has accelerated and some 50 million rural labourers have made the switch.This figure was produced by the State Statistical Bureau(SSB)based on data from Chind s 1%popu-1ation sample survey and annual popu-lation statistics.
文摘Scientific progress has greatly improved the technical level of China’s highway and waterway transport in the past ten years. In order to modernize communications and transport and raise competitive power of enterprises as early as possible, the Ministry of Communications has decided to add more scientific investment, planning to double the annual expense on scientific investment during the Ninth Five-year Plan period compared to the Eighth Five-year
文摘Background Cellular repressor of ElA-stimulated genes(CREG) is homeostatic modulated gene,which regulate a number of cellular processes,including cell differentiation, motility and survival.Previous studies have demonstrated that CREG was expressed in all three germ layers,suggesting that it might act as a vital regulator during embryonic developing.The aim of the present study was to investigate the role of CREG in an embryonic stem cell(ESC) differentiation model that recapitulates the developmental steps of vasculogenesis.Methods The ES cells were stably transfected either pCXN2-FLAG-CREG-IRES-EGFP plasmid or pDS1- shRNA-CREG plasmid to produce the CREG+/ES cells and CREG-siRNA/ES cells,respectively.Vasculogenesis was detected by whole mount immunostainings for CD31.Dil labeled acLDL staining assay was used to detect branching pseudopods in cultures in Matrigel.Real-time PCR and Western blot analysis were employed to determine expressions of VEGF and Flk-1.Results CREG +/ES-derived embryoid bodies(EBs) were found to form spontaneously a primitive vascular network after 6 days of differentiation.In contrast, wildtype EBs exhibit theirs vasculogenesis until 13 days of differentiation by whole mount immunostainings for CD31. CREG +/EBs developed more rapidly branching pseudopods at 9 days compared with that of wildtype EBs by Dil labeled acLDL staining assay.In contrast,CREG-siRNA/ES exhibits an undifferentiated morphogenesis associated with an increase in apoptotic cells in spite of being derived from LIF and feeder layers.Administration of CREG-siRNA/ES cells with recombinant CREG protein rescued the phenomena that CREG boosted vasculogenesis in a dose-dependent fasion. Mechanically,Real-time PCR and Western blot analysis revealed the expressions both VEGF and Flk-1 significantly in- creased in CREG+/EBs.Moreover,after treatment of CREG+ /EBs with neurtralizing antibody against VEGF,the rapid vasculogenesis was significantly repressed.Conclusions Our data strongely demonstrate that CREG play a pivotal role in accelerating vasculogenesis in development of ES cells. VEGF,as its important downstream effector,mediated this bio-function.
文摘Scientific progress has greatly improved the technical level of China’shighway and waterway transport in the past decade.In order tomodernize communications and transport and raise competitivepower of enterprises as early as possible,the Ministry of Communicationshas decided to add more scientific investment,planning to double theannual expense on scientific investment during the Ninth Five-yearPlan period compared to the Eighth Five-year Plan period.Theministry will also conduct cooperative research,development,designand production with foreign scientific institutions and internationalorganizations.
文摘A cosmological model with both acceleration and deceleration is proposed, rewriting and reinterpreting Einstein's Field Equations, with a variable cosmological parameter A denoting energy due to space-time, which may be considered as "vacuum energy" at the "beginning" of the universe. The cosmological constant is replaced by a variable cosmological parameter, which is a measure of the energy of space-time that could be converted to energy of matter and radiation and vice versa.
基金supported by the Science and Technology Innovation Program of Fujian Agriculture and Forestry University,China(Grant No.KFB22045)the General Program of Natural Science Foundation Fujian,China(Grant No.2023J01460).
文摘The doubled haploid(DH)technique accelerates homozygosity by inducing chromosome doubling in haploid embryos derived from hybrid plants.This approach offers significant advantages over conventional rice breeding methods by shortening the breeding cycle and enabling rapid development of pure homozygous lines.Anther culture(AC)has been established as an efficient and successful method for producing DH plants via androgenesis in rice.However,despite its success in japonica rice.
基金supported by the National Natural Science Foundation of China(41421004,41825010)the Strategic Priority Research Program of the Chinese Academy of Sciences(XDA19070201)+1 种基金the Open Program of Joint Laboratory of Climate and Environment Change,Chengdu University of Information Technology(JLCEC201801)the CAS-PKU(Chinese Academy of Science-Peking University)Joint Research Program
文摘The rapid expansion of lake area in the Tibetan Plateau(TP)has attracted a considerable amount of concern in recent decades.Limited evidence has suggested that climate warming and the cryosphere change are the most prominent contributors to lake expansion.The widespread changes in lake area result from a combination of increased precipitation,melting glaciers,permafrost degradation,and changes in other components of terrestrial water.However,debate remains as to whether melting glaciers or increased precipitation have a greater impact on lake expansion.Varied topography and limited datasets hinder the ability to perform extensive research,and there is currently no definitive conclusion on the issue.
基金supported in part by the National Key Research and Development Program of China (Grant No.2020YFC2201504)the National Natural Science Foundation of China (Grant Nos.12588101 and 12535002)。
文摘We investigate the null tests of cosmic accelerated expansion by using the baryon acoustic oscillation(BAO)data measured by the dark energy spectroscopic instrument(DESI)and reconstruct the dimensionless Hubble parameter E(z)from the DESI BAO Alcock-Paczynski(AP)data using Gaussian process to perform the null test.We find strong evidence of accelerated expansion from the DESI BAO AP data.By reconstructing the deceleration parameter q(z) from the DESI BAO AP data,we find that accelerated expansion persisted until z■0.7 with a 99.7%confidence level.Additionally,to provide insights into the Hubble tension problem,we propose combining the reconstructed E(z) with D_(H)/r_(d) data to derive a model-independent result r_(d)h=99.8±3.1 Mpc.This result is consistent with measurements from cosmic microwave background(CMB)anisotropies using the ΛCDM model.We also propose a model-independent method for reconstructing the comoving angular diameter distance D_(M)(z) from the distance modulus μ,using SNe Ia data and combining this result with DESI BAO data of D_(M)/r_(d) to constrain the value of r_(d).We find that the value of r_(d),derived from this model-independent method,is smaller than that obtained from CMB measurements,with a significant discrepancy of at least 4.17σ.All the conclusions drawn in this paper are independent of cosmological models and gravitational theories.
基金supported by the Strategic Priority Research Program of the Chinese Academy of Sciences(Grant No.XDB0530000)the Discipline Construction Foundation of“Double World-class Project”.
文摘Laser wakefield accelerators(LWFAs)offer acceleration gradients up to 1000 times higher than those of conventional radio-frequency accelerators,offering a pathway to significantly more compact and cost-effective accelerator systems.This breakthrough opens up new possibilities for laboratory-scale light sources.All-optical inverse Compton scattering(AOCS)sources driven by LWFAs produce high-brightness,quasimonochromatic X rays with micrometer-scale source sizes,delivering the spatial coherence and resolution required for X-ray phase-contrast imaging(XPCI).These features position AOCS X-ray sources as promising tools for applications in biology,medicine,physics,and materials science.However,previous AOCS-based imaging studies have primarily focused on X-ray absorption imaging.In this work,we report successful experimental demonstrations of edge-enhanced in-line XPCI using energy-tunable,quasi-monochromatic AOCS X rays.With a spatial resolution of~20μm,our results clearly show the potential of high-resolution,AOCS-based XPCI applications.
基金Project co-funded by European Union in the context of the precommercial public procurement of RD services managed by CDTI E.P.Eco-funded by the European Regional Development Fund(ERDF)as part of the project for the development of a Compact Linear Accelerator for Hadrontherapy,Exp.CPP 03/2023 AB(DCCPI/OCPI)。
文摘In response to the increasing demand for hadron therapy facilities,significant efforts have been directed toward enhancing the performance of high-gradient and high-transmission injectors for light ion beams.For carbon ion irradiations,which offer greater radiobiological efficiency in tumor treatment,recent research has focused on developing high-production sources of fully stripped C^(6+)ions and highly compact,high-frequency RFQ cavities.This study explores the design possibilities of a carbon ion acceleration section using 750 MHz Interdigital H-mode Drift Tube Linacs(IH-DTLs)as a high-efficiency solution for accelerating ions in the 5-10 MeV per nucleon energy range.A particle-tracking routine based on the TRAVEL code was developed to design the acceleration line through a tailored KONUS-type configuration.Three design solutions were proposed and compared,exploring different alternatives regarding the use of a MEBT to match the output beam phase space of the RFQ to the optics of the line,as well as varying considerations for magnetic systems to focus the beam.Additionally,the compatibility of the proposed solutions with the existing design of the carbon ion bent-linac for hadron therapy was assessed.
文摘Purpose-The utilization of alkali-free accelerators,primarily based on aluminum sulfate,in shotcrete often leads to significant shrinkage and cracking,jeopardizing long-term durability.This study aims to mitigate this issue by investigating the efficacy of silica fume(SF)and fly ash(FA),individually and combined,in controlling the shrinkage deformation of shotcrete.Design/methodology/approach-Shotcrete mixtures were prepared with cement partially replaced by SF,FA,or their combination(SF-FA).Aluminum sulfate was used as an accelerator.The shrinkage behavior under sealed and dry conditions was monitored.The underlying mechanisms were elucidated through hardened airvoid analysis,mercury intrusion porosimetry(MIP),and internal humidity tracking.Findings-Contrary to some previous studies,both individual and combined incorporation of mineral admixtures reduced the 28-day shrinkage.The SF-FA composite exhibited the most substantial reduction(23.72%sealed,17.76%dry),followed by SF alone(18.11%sealed)and FA alone(11.35%sealed).Mechanism analysis revealed that the admixtures refined the pore structure,reduced the volume of harmful pores,and,crucially,optimized the air-void system by increasing the population of fine bubbles.This created an internal buffering effect that alleviates capillary stress.The synergistic effect in the SF-FA group is attributed to complementary pore-filling at dual scales.Originality/value-This work demonstrates that,within an aluminum sulfate-accelerated shotcrete system,silica fume can effectively reduce shrinkage when its pore-refining effect is counterbalanced by a welloptimized micro-bubble network.It provides the first comprehensive evidence of the synergistic shrinkagereducing mechanism of SF and FA in such systems,offering a practical strategy for mix design optimization to enhance the volume stability of shotcrete.
基金the National Science and Technology Major Project(Grant No.2025ZD1008300)the Major Scientific Research Instrument Development Project of the National Natural Science Foundation of China(Grant No.52327803).
文摘To address the challenges of rapid bit failure and high drilling costs associated with hard limestone in Sichuan Basin of China,we conducted rock-breaking experiments and simulations of shaped(cylindrical,ridge,and chopper)cutters.Rock mechanics,drillability,and acoustic emission indentation tests revealed the drilling resistance characteristics of the limestone:average uniaxial compressive strength of 202.472 MPa,tensile strength of 7.092 MPa,and drillability of 7.866.We evaluated the performance differences between the shaped cutters before introducing an efficient and innovative finite-discrete-infinite element method(FDIEM)to establish an interaction model between the shaped cutters and limestone.The simulation results indicated the following:(1)The shaped cutters demonstrated superior rock-breaking performance compared to the traditional cylindrical cutter.(2)Compared with the cylindrical cutter,the ridge cutter yielded the lowest peak indentation force and mechanical specific energy,with reductions of 8.71%and 33.83%,respectively.This confirmed that the ridge cutter had the optimal tooth profile for the target formation.Its rock-breaking mechanism relied on the convex edges to induce localized high stress in the rock,which enabled efficient rock fragmentation via a plowing mode while mitigating frictional resistance from cuttings.(3)The novel chopper cutter with its secondary step surface exerted a buffering effect on the cuttings,thereby achieving high cutting stability.This study provides theoretical and technical support for the design of personalized drill bits and the acceleration of the rate of penetration(ROP)in deep hard rock formations.
基金supported by the National Natural Science Foundation of China(Nos.12341501 and 12575164)。
文摘X-rays are widely used in the non-destructive testing(NDT)of electrical equipment.Radio frequency(RF)electron linear accelerators can generate MeV high-energy X-rays with strong penetrating ability;however,the system generally has a large scale,which is not suitable for on-site testing.Compared with the S-band(S-linac)at the same stage of beam energy,the accelerator working in the X-band(X-linac)can compress the facility scale by over 2/3 in the longitudinal direction,which is convenient for the on-site NDT of electrical equipment.To address the beam quality and design complexity simultaneously,the non-dominated sorting genetic algorithmⅡ(NSGA-Ⅱ),which is a multi-objective genetic algorithm(MOGA),was developed to optimize the cavity chain design of the X-linac.Additionally,the designs of the focusing coils,electron gun,and RF couplers,which are other key components of the X-linac,were introduced in this context.In particular,the focusing coil distributions were optimized using a genetic algorithm.Furthermore,after designing such key components,PARMELA software was adopted to perform beam dynamics calculations with the optimized accelerating fields and magnetic fields.The results show that the beam performance was obtained with a capture ratio of more than 90%,an energy spread of less than 10%,and an average energy of approximately 3 MeV.The design and simulation results indicate that the proposed NSGAⅡ-based approach is feasible for X-linac accelerator design.Furthermore,it can be generalized as a universal technique for industrial electron linear accelerators provided that specific optimization objectives and constraints are set according to different application scenarios and requirements.
