Jujube witches’broom(JWB)phytoplasmas parasitize the sieve tubes of diseased phloem and cause an excessive proliferation of axillary shoots from dormant lateral buds to favour their transmission.In previous research,...Jujube witches’broom(JWB)phytoplasmas parasitize the sieve tubes of diseased phloem and cause an excessive proliferation of axillary shoots from dormant lateral buds to favour their transmission.In previous research,two JWB effectors,SJP1 and SJP2,were identified to induce lateral bud outgrowth by disrupting ZjBRC1-mediated auxin flux.However,the pathogenesis of JWB disease remains largely unknown.Here,tissue-specific transcriptional reprogramming was examined to gain insight into the genetic mechanisms acting inside jujube lateral buds under JWB phytoplasma infection.JWB phytoplasmas modulated a series of plant signalling networks involved in lateral bud development and defence,including auxin,abscisic acid(ABA),ethylene,jasmonic acid,and salicylic acid.JWB-induced bud outgrowth was accompanied by downregulation of ABA synthesis within lateral buds.ABA application rescued the bushy appearances of transgenic Arabidopsis overexpressing SJP1 and SJP2 in Col-0 and ZjBRC1 in the brc1-2 mutant.Furthermore,the expression of ZjBRC1 and ABA-related genes ZjHB40 and ZjNCED3 was negatively correlated with lateral main bud outgrowth in decapitated healthy jujube.Molecular evidence showed that ZjBRC1 interacted with ZjBRC2 via its N-terminus to activate ZjHB40 and ZjNCED3 expression and ABA accumulation in transgenic jujube calli.In addition,ZjBRC1 widely regulated differentially expressed genes related to ABA homeostasis and ABA signalling,especially by binding to and suppressing ABA receptors.Therefore,these results suggest that JWB phytoplasmas hijack the ZjBRC1-mediated ABA pathways to stimulate lateral bud outgrowth and expansion,providing a strategy to engineer plants resistant to JWB phytoplasma disease and regulate woody plant architecture to promote crop yield and quality.展开更多
The pernicious bacterial proliferation and emergence of super-resistant bacteria have already posed a great threat to public health,which drives researchers to develop antibiotic-free strategies to eradicate these fie...The pernicious bacterial proliferation and emergence of super-resistant bacteria have already posed a great threat to public health,which drives researchers to develop antibiotic-free strategies to eradicate these fierce microbes.Although enormous achievements have already been achieved,it remains an arduous challenge to realize efficient sterilization to cut off the drug resistance generation.Recently,photothermal therapy(PTT)has emerged as a promising solution to efficiently damage the integrity of pathogenic bacteria based on hyperthermia beyond their tolerance.Until now,numerous photothermal agents have been studied for antimicrobial PTT.Among them,MXenes(a type of two-dimensional transition metal carbides or nitrides)are extensively investigated as one of the most promising candidates due to their high aspect ratio,atomic-thin thickness,excellent photothermal performance,low cytotoxicity,and ultrahigh dispersibility in aqueous systems.Besides,the enormous application scenarios using their antibacterial properties can be tailored via elaborated designs of MXenes-based materials.In this review,the synthetic approaches and textural properties of MXenes have been systematically presented first,and then the photothermal properties and sterilization mechanisms using MXenes-based materials are documented.Subsequently,recent progress in diverse fields making use of the photothermal and antibacterial performances of MXenes-based materials are well summarized to reveal the potential applications of these materials for various purposes,including in vitro and in vivo sterilization,solar water evaporation and purification,and flexible antibacterial fabrics.Last but not least,the current challenges and future perspectives are discussed to provide theoretical guidance for the fabrication of efficient antimicrobial systems using MXenes.展开更多
Zero-dimensional(0D)hybrid metal halides are under intensive investigation owing to their unique physical properties,such as the broadband emission from highly localized excitons that is promising for white-emitting l...Zero-dimensional(0D)hybrid metal halides are under intensive investigation owing to their unique physical properties,such as the broadband emission from highly localized excitons that is promising for white-emitting lighting.However,fundamental understanding of emission variations and structure–property relationships is still limited.Here,by using pressure processing,we obtain robust exciton emission in 0D(C_(9)NH_(20))_(6)Pb_(3)Br_(12) at room temperature that can survive to 80 GPa,the recorded highest value among all the hybrid metal halides.In situ experimental characterization and first-principles calculations reveal that the pressure-induced emission is mainly caused by the largely suppressed phonon-assisted nonradiative pathway.Lattice compression leads to phonon hardening,which considerably weakens the exciton–phonon interaction and thus enhances the emission.The robust emission is attributed to the unique structure of separated spring-like[Pb_(3)Br_(12)]^(6−)trimers,which leads to the outstanding stability of the optically active inorganic units.Our findings not only reveal abnormally robust emission in a 0D metal halide,but also provide new insight into the design and optimization of local structures of trimers and oligomers in lowdimensional hybrid materials.展开更多
Aging biomarkers are a combination of biological parameters to(i)assess age-related changes,(ii)track the physiological aging process,and(iii)predict the transition into a pathological status.Although a broad spectrum...Aging biomarkers are a combination of biological parameters to(i)assess age-related changes,(ii)track the physiological aging process,and(iii)predict the transition into a pathological status.Although a broad spectrum of aging biomarkers has been developed,their potential uses and limitations remain poorly characterized.An immediate goal of biomarkers is to help us answer the following three fundamental questions in aging research:How old are we?Why do we get old?And how can we age slower?This review aims to address this need.Here,we summarize our current knowledge of biomarkers developed for cellular,organ,and organismal levels of aging,comprising six pillars:physiological characteristics,medical imaging,histological features,cellular alterations,molecular changes,and secretory factors.To fulfill all these requisites,we propose that aging biomarkers should qualify for being specific,systemic,and clinically relevant.展开更多
Cell membrane-engineered nano-delivery systems have evolved as a promising strategy to enhance drug bioavailability,offering an alternative for reversing drug resistance in cancer therapy.Herein,a formulated nano-lipo...Cell membrane-engineered nano-delivery systems have evolved as a promising strategy to enhance drug bioavailability,offering an alternative for reversing drug resistance in cancer therapy.Herein,a formulated nano-liposome that fabricated by hybridizing cisplatin-resistant A549 cell line(A549/cis)cancer cell membrane and phospholipids for co-delivery of cisplatin and nuclear protein zeste homolog 2(EZH2)-targeting peptide EIP103,referred to as cLCE,was developed.In vitro results indicated that the formulated nano-liposome can efficiently inhibit A549/cis cancer cell invasion and metastasis through the down-regulation of Ncadherin and vimentin proteins.Mechanistic studies demonstrated that the reduction of nerve growth factor receptor(NGFR)levels and the increase of peroxisome proliferator-activated receptorγ(PPARγ)levels achieved by EIP103 may contribute to the reversal of cisplatin resistance.In vivo results demonstrated that the encapsulation of both cisplatin and EIP103 within cLCE leads to increased intratumoral accumulation and prolonged survival in A549/cis cancer-bearing mice as compared to the individual drugs alone.This can be attributed to the enhanced tumor homing capability of cLCE achieved through the presence of inherited membrane proteins derived from A549/cis cells.Taken together,this study may provide a highly promising therapeutic strategy to improve clinical treatments for cisplatin-resistance non-small-cell lung cancer(NSCLC)as well as other malignant cancers.展开更多
Although perovskite solar cells(PSCs)have achieved encouraging efficiency,the photon loss at the substrate due to light reflection has not been well addressed.Light management is promising to reduce reflection loss an...Although perovskite solar cells(PSCs)have achieved encouraging efficiency,the photon loss at the substrate due to light reflection has not been well addressed.Light management is promising to reduce reflection loss and realize higher power conversion efficiency(PCE)of PSCs.Here,a bilayer antireflective coating(ARC)has been designed and coated onto the backside of the glass substrate of(FAPbI_(3))_(x)(MAPbBr_(3))_(1-x)PSCs to enhance photon harvesting and consequently the device efficiency.The bottom layer of the bilayer ARC is made from a silica polymer and the top layer is made from the mixture of hexamethyldisiloxane-modified mesoporous silica nanoparticles and a fluorinated silica polymer.By adjusting the refractive index and the film thickness of each layer according to a two-layer model,enhanced glass transmittance in a broadband wavelength range can be reached,with the maximum transmittance increasing from ca.90%to over 95%.With the bilayer ARC,the maximum short-circuit current density and PCE of(FAPbI_(3))_(x)(MAPbBr_(3))_(1-x)PSCs can be increased from 25.5 m A cm^(-2)and 22.7%to 26.5 mA cm^(-2)and 23.9%with negligible changes in fill factor and opencircuit voltage.This work presents a simple yet effective strategy to enhance the efficiency of solar cells employing bilayer antirefective coatings,which can be applied to other types of solar cells.展开更多
Aromatic diimide dyes are an attractive class of redox-active organic molecules for lithium-ion batteries,whose battery performances(stabilities,conductivities and cyclicities) are strongly dependent on the sizes of t...Aromatic diimide dyes are an attractive class of redox-active organic molecules for lithium-ion batteries,whose battery performances(stabilities,conductivities and cyclicities) are strongly dependent on the sizes of their π-systems.However,due to the different Clar’s structures possessed,three vertically7 r-extended aromatic diimides,namely,naphthalene diimide(two one-electron reductions),perylene diimide and terrylene diimide(two one-electron reductions),exhibit different electronic redox mechanisms when served as cathode materials in organic lithium-ion batteries.Herein,we have studied carefully the different electrochemical characteristics of the three aromatic diimides through experimental and theoretical calculations.Their battery present different shape of charge/discharge curves resulting from stability of their reduction state during charge/discharge process.Terrylene diimide shows better cycle and rate capacities than those of naphthalene diimide and perylene diimide,which could be attributed to the more energies released during terrylene diimide combining with lithium ions than those of other two diimides.展开更多
The quantum multimode of correlated fields is essential for future quantum-correlated imaging.Here we investigate multimode properties theoretically and experimentally for the parametric amplified multiwave mixing pro...The quantum multimode of correlated fields is essential for future quantum-correlated imaging.Here we investigate multimode properties theoretically and experimentally for the parametric amplified multiwave mixing process.The multimode behavior of the signals in our system stems from spatial phase mismatching caused by frequency resonant linewidth.In the spatial domain,we observe the emission rings with an uneven distribution of photon intensity in the parametric amplified four-wave mixing process,suggesting different spatial modes.The symmetrical distribution of spatial spots indicates the spatial correlation between the Stokes and anti-Stokes signals.While in the frequency domain,the multimode character is reflected as multiple peaks splitting in the signals'spectrum.A novelty in our experiment,the number of multimodes both in the spatial and frequency domains can be controlled by dressing lasers by modifying the nonlinear susceptibility.Finally,we extend the multimode properties to the multiwave mixing process.The results can be applied in quantum imaging.展开更多
Human infection with Chlamydia psittaci is rare but difficult to recognize.We report an outbreak of psittacosis among poultry processing workers in China.We applied metagenomic next-generation sequencing and identifie...Human infection with Chlamydia psittaci is rare but difficult to recognize.We report an outbreak of psittacosis among poultry processing workers in China.We applied metagenomic next-generation sequencing and identified Chlamydia psittaci reads from samples of all seven patients,four of which were subsequently confirmed by PCR.Epidemiological results suggested that the poultry processed in the factory was the possible source of human infection.展开更多
基金supported by the National Natural Science Foundation of China(31971687 and 32002007)the Anhui Province Key Research and Development Program(202004a06020008)+1 种基金the Natural Science Foundation of Anhui Province(2008085QC127)the Natural Science Foundation of Anhui Provincial Department of Education(KJ2019A0186).
文摘Jujube witches’broom(JWB)phytoplasmas parasitize the sieve tubes of diseased phloem and cause an excessive proliferation of axillary shoots from dormant lateral buds to favour their transmission.In previous research,two JWB effectors,SJP1 and SJP2,were identified to induce lateral bud outgrowth by disrupting ZjBRC1-mediated auxin flux.However,the pathogenesis of JWB disease remains largely unknown.Here,tissue-specific transcriptional reprogramming was examined to gain insight into the genetic mechanisms acting inside jujube lateral buds under JWB phytoplasma infection.JWB phytoplasmas modulated a series of plant signalling networks involved in lateral bud development and defence,including auxin,abscisic acid(ABA),ethylene,jasmonic acid,and salicylic acid.JWB-induced bud outgrowth was accompanied by downregulation of ABA synthesis within lateral buds.ABA application rescued the bushy appearances of transgenic Arabidopsis overexpressing SJP1 and SJP2 in Col-0 and ZjBRC1 in the brc1-2 mutant.Furthermore,the expression of ZjBRC1 and ABA-related genes ZjHB40 and ZjNCED3 was negatively correlated with lateral main bud outgrowth in decapitated healthy jujube.Molecular evidence showed that ZjBRC1 interacted with ZjBRC2 via its N-terminus to activate ZjHB40 and ZjNCED3 expression and ABA accumulation in transgenic jujube calli.In addition,ZjBRC1 widely regulated differentially expressed genes related to ABA homeostasis and ABA signalling,especially by binding to and suppressing ABA receptors.Therefore,these results suggest that JWB phytoplasmas hijack the ZjBRC1-mediated ABA pathways to stimulate lateral bud outgrowth and expansion,providing a strategy to engineer plants resistant to JWB phytoplasma disease and regulate woody plant architecture to promote crop yield and quality.
基金supported by the National Natural Science Foundation of China(21902085,51572157 and 82002793)the Natural Science Foundation of Shandong Province(ZR2019QF012,ZR2020QH183 and ZR2019BEM024)+1 种基金Shenzhen Fundamental Research Program(JCYJ20190807093205660 and JCYJ20190807092803583)the fund of the State Key Laboratory of Solidification Processing in NWPU(SKLSP202108).
文摘The pernicious bacterial proliferation and emergence of super-resistant bacteria have already posed a great threat to public health,which drives researchers to develop antibiotic-free strategies to eradicate these fierce microbes.Although enormous achievements have already been achieved,it remains an arduous challenge to realize efficient sterilization to cut off the drug resistance generation.Recently,photothermal therapy(PTT)has emerged as a promising solution to efficiently damage the integrity of pathogenic bacteria based on hyperthermia beyond their tolerance.Until now,numerous photothermal agents have been studied for antimicrobial PTT.Among them,MXenes(a type of two-dimensional transition metal carbides or nitrides)are extensively investigated as one of the most promising candidates due to their high aspect ratio,atomic-thin thickness,excellent photothermal performance,low cytotoxicity,and ultrahigh dispersibility in aqueous systems.Besides,the enormous application scenarios using their antibacterial properties can be tailored via elaborated designs of MXenes-based materials.In this review,the synthetic approaches and textural properties of MXenes have been systematically presented first,and then the photothermal properties and sterilization mechanisms using MXenes-based materials are documented.Subsequently,recent progress in diverse fields making use of the photothermal and antibacterial performances of MXenes-based materials are well summarized to reveal the potential applications of these materials for various purposes,including in vitro and in vivo sterilization,solar water evaporation and purification,and flexible antibacterial fabrics.Last but not least,the current challenges and future perspectives are discussed to provide theoretical guidance for the fabrication of efficient antimicrobial systems using MXenes.
基金supported by the National Nature Science Foundation of China(NSFC)(Grant Nos.U1930401 and 51527801)support from the National Science Foundation(Grant No.DMR-1709116)+2 种基金supported by the National Science Foundation–Earth Sciences(Grant No.EAR-1634415)the Department of Energy–GeoSciences(Grant No.DE-FG02-94ER14466)partially by COMPRES under NSF Cooperative Agreement No.EAR-1606856.
文摘Zero-dimensional(0D)hybrid metal halides are under intensive investigation owing to their unique physical properties,such as the broadband emission from highly localized excitons that is promising for white-emitting lighting.However,fundamental understanding of emission variations and structure–property relationships is still limited.Here,by using pressure processing,we obtain robust exciton emission in 0D(C_(9)NH_(20))_(6)Pb_(3)Br_(12) at room temperature that can survive to 80 GPa,the recorded highest value among all the hybrid metal halides.In situ experimental characterization and first-principles calculations reveal that the pressure-induced emission is mainly caused by the largely suppressed phonon-assisted nonradiative pathway.Lattice compression leads to phonon hardening,which considerably weakens the exciton–phonon interaction and thus enhances the emission.The robust emission is attributed to the unique structure of separated spring-like[Pb_(3)Br_(12)]^(6−)trimers,which leads to the outstanding stability of the optically active inorganic units.Our findings not only reveal abnormally robust emission in a 0D metal halide,but also provide new insight into the design and optimization of local structures of trimers and oligomers in lowdimensional hybrid materials.
基金supported by the National Natural Science Foundation of China(31730036,31871380,31871382,31930055,31930058,32000500,32022034,32030033,32070730,32130046,3217050247,32150005,32200595,32222024,81730019,81730022,81830014,81921006,81925005,81970426,81971301,81971312,82030041,82061160495,82070805,82071595,82090020,82100841,82120108009,82122024,82125002,82125011,82125012,82130045,82171284,82173061,82173398,82225007,82225015,82225017,82225018,82230047,82230088,82271600,91949106,91949201,92049116,92049302,92049304,92149303,92149306,92157202,92168201,92169102,92249301,92268201)the National Key Research and Development Program of China(2018YFA0800700,2018YFC2000100,2018YFC2000102,2018YFC2002003,2019YFA0110900,2019YFA0801703,2019YFA0801903,2019YFA0802202,2019YFA0904800,2020YFA0113400,2020YFA0803401,2020YFA0804000,2020YFC2002900,2020YFC2008000,2020YFE0202200,2021YFA0804900,2021YFA1100103,2021YFA1100900,2021YFE0114200,2021ZD0202400,2022YFA0806001,2022YFA0806002,2022YFA0806600,2022YFA1103200,2022YFA1103601,2022YFA1103701,2022YFA1103800,2022YFA1103801,2022YFA1104100,2022YFA1104904,2022YFA1303000,2022YFC2009900,2022YFC2502401,2022YFC3602400,2022YFE0118000,2022ZD0213200)+14 种基金the Strategic Priority Research Program of the Chinese Academy of Sciences(XDA16030302,XDB39000000,XDB39030600)the Youth Innovation Promotion Association of Chinese Academy of Sciences(2020085,2021080)CAS Project for Young Scientists in Basic Research(YSBR-076)the Program of the Beijing Natural Science Foundation(JQ20031)Clinical Research Operating Fund of Central High level hospitals(2022-PUMCHE-001)CAMS Innovation Fund for Medical Sciences(CIFMS)(2022-I2M1-004)Talent Program of the Chinese Academy of Medical Science(2022RC310-10)Research Funds from Health@Inno HK Program launched by Innovation Technology Commission of the Hong Kong Special Administrative Region,Guangdong Basic and Applied Basic Research Foundation(2020B1515020044)Guangzhou Planned Project of Science and Technology(202002020039)the Major Technology Innovation of Hubei Province(2019ACA141)the Science and Technology Major Project of Hunan Provincial Science and Technology Department(2021SK1010)Shanghai Municipal Science and Technology Major Project(2017SHZDZX01)the Natural Science Foundation of Sichuan Province(2023NSFSC0003)Yunnan Fundamental Research Project(202201AS070080)the State Key Laboratory of Membrane Biology。
文摘Aging biomarkers are a combination of biological parameters to(i)assess age-related changes,(ii)track the physiological aging process,and(iii)predict the transition into a pathological status.Although a broad spectrum of aging biomarkers has been developed,their potential uses and limitations remain poorly characterized.An immediate goal of biomarkers is to help us answer the following three fundamental questions in aging research:How old are we?Why do we get old?And how can we age slower?This review aims to address this need.Here,we summarize our current knowledge of biomarkers developed for cellular,organ,and organismal levels of aging,comprising six pillars:physiological characteristics,medical imaging,histological features,cellular alterations,molecular changes,and secretory factors.To fulfill all these requisites,we propose that aging biomarkers should qualify for being specific,systemic,and clinically relevant.
基金supported by the National Natural Science Foundation of China(Nos.32101130,21721002,and 31971295)Financial support from Strategic Priority Research Program of Chinese Academy of Sciences(No.XDB36000000)is also gratefully acknowledged.
文摘Cell membrane-engineered nano-delivery systems have evolved as a promising strategy to enhance drug bioavailability,offering an alternative for reversing drug resistance in cancer therapy.Herein,a formulated nano-liposome that fabricated by hybridizing cisplatin-resistant A549 cell line(A549/cis)cancer cell membrane and phospholipids for co-delivery of cisplatin and nuclear protein zeste homolog 2(EZH2)-targeting peptide EIP103,referred to as cLCE,was developed.In vitro results indicated that the formulated nano-liposome can efficiently inhibit A549/cis cancer cell invasion and metastasis through the down-regulation of Ncadherin and vimentin proteins.Mechanistic studies demonstrated that the reduction of nerve growth factor receptor(NGFR)levels and the increase of peroxisome proliferator-activated receptorγ(PPARγ)levels achieved by EIP103 may contribute to the reversal of cisplatin resistance.In vivo results demonstrated that the encapsulation of both cisplatin and EIP103 within cLCE leads to increased intratumoral accumulation and prolonged survival in A549/cis cancer-bearing mice as compared to the individual drugs alone.This can be attributed to the enhanced tumor homing capability of cLCE achieved through the presence of inherited membrane proteins derived from A549/cis cells.Taken together,this study may provide a highly promising therapeutic strategy to improve clinical treatments for cisplatin-resistance non-small-cell lung cancer(NSCLC)as well as other malignant cancers.
基金the Natural Science Foundation of Hubei Province(2019CFB575)the National Natural Science Foundation of China(51861145101)。
文摘Although perovskite solar cells(PSCs)have achieved encouraging efficiency,the photon loss at the substrate due to light reflection has not been well addressed.Light management is promising to reduce reflection loss and realize higher power conversion efficiency(PCE)of PSCs.Here,a bilayer antireflective coating(ARC)has been designed and coated onto the backside of the glass substrate of(FAPbI_(3))_(x)(MAPbBr_(3))_(1-x)PSCs to enhance photon harvesting and consequently the device efficiency.The bottom layer of the bilayer ARC is made from a silica polymer and the top layer is made from the mixture of hexamethyldisiloxane-modified mesoporous silica nanoparticles and a fluorinated silica polymer.By adjusting the refractive index and the film thickness of each layer according to a two-layer model,enhanced glass transmittance in a broadband wavelength range can be reached,with the maximum transmittance increasing from ca.90%to over 95%.With the bilayer ARC,the maximum short-circuit current density and PCE of(FAPbI_(3))_(x)(MAPbBr_(3))_(1-x)PSCs can be increased from 25.5 m A cm^(-2)and 22.7%to 26.5 mA cm^(-2)and 23.9%with negligible changes in fill factor and opencircuit voltage.This work presents a simple yet effective strategy to enhance the efficiency of solar cells employing bilayer antirefective coatings,which can be applied to other types of solar cells.
基金supported by the National Natural Science Foundation of China (No.21572032)Program for New Century Excellent Talents in Fujian Province University+2 种基金Natural Science Foundation of Fujian Province (Nos.2018J01431 and 2018J01690)the Foundation of Science and Technology on Sanming Institute of Fluorochemical Industry (No.FCIT201706GR)Excellent Youth Exchange Program of China Association for Science and Technology in 2017
文摘Aromatic diimide dyes are an attractive class of redox-active organic molecules for lithium-ion batteries,whose battery performances(stabilities,conductivities and cyclicities) are strongly dependent on the sizes of their π-systems.However,due to the different Clar’s structures possessed,three vertically7 r-extended aromatic diimides,namely,naphthalene diimide(two one-electron reductions),perylene diimide and terrylene diimide(two one-electron reductions),exhibit different electronic redox mechanisms when served as cathode materials in organic lithium-ion batteries.Herein,we have studied carefully the different electrochemical characteristics of the three aromatic diimides through experimental and theoretical calculations.Their battery present different shape of charge/discharge curves resulting from stability of their reduction state during charge/discharge process.Terrylene diimide shows better cycle and rate capacities than those of naphthalene diimide and perylene diimide,which could be attributed to the more energies released during terrylene diimide combining with lithium ions than those of other two diimides.
基金National Key RD Program of China(2017YFA0303700,2018YFA0307500)National Natural Science Foundation of China(11604256,11804267,61605154,61975159,11904279)
文摘The quantum multimode of correlated fields is essential for future quantum-correlated imaging.Here we investigate multimode properties theoretically and experimentally for the parametric amplified multiwave mixing process.The multimode behavior of the signals in our system stems from spatial phase mismatching caused by frequency resonant linewidth.In the spatial domain,we observe the emission rings with an uneven distribution of photon intensity in the parametric amplified four-wave mixing process,suggesting different spatial modes.The symmetrical distribution of spatial spots indicates the spatial correlation between the Stokes and anti-Stokes signals.While in the frequency domain,the multimode character is reflected as multiple peaks splitting in the signals'spectrum.A novelty in our experiment,the number of multimodes both in the spatial and frequency domains can be controlled by dressing lasers by modifying the nonlinear susceptibility.Finally,we extend the multimode properties to the multiwave mixing process.The results can be applied in quantum imaging.
文摘Human infection with Chlamydia psittaci is rare but difficult to recognize.We report an outbreak of psittacosis among poultry processing workers in China.We applied metagenomic next-generation sequencing and identified Chlamydia psittaci reads from samples of all seven patients,four of which were subsequently confirmed by PCR.Epidemiological results suggested that the poultry processed in the factory was the possible source of human infection.
