Optical traps use focused laser beams to generate forces on targeted objects ranging in size from nanometers to micrometers. However, for their high coefficients of scattering and absorption, micrometer-sized metallic...Optical traps use focused laser beams to generate forces on targeted objects ranging in size from nanometers to micrometers. However, for their high coefficients of scattering and absorption, micrometer-sized metallic particles were deemed non-trappable in three dimensions using a single beam. This barrier is now removed. We demon- strate, both in theory and experiment, three-dimensional (3D) dynamic all-optical manipulations of micrometer- sized gold particles under high focusing conditions. The force of gravity is found to balance the positive axial optical force exerted on particles in an inverted optical tweezers system to form two trapping positions along the vertical direction. Both theoretical and experimental results confirm that stable 3D manipulations are achievable for these particles regardl for a variety of in-depth ess of beam polarization and wavelength. research requiting metallic particles. The present work opens up new opportunities .展开更多
Although microbes primarily are single-cell organisms,they are not isolated individuals.Microbes use various means to communicate with one another.Based on the communication,microbes establish a social interaction wit...Although microbes primarily are single-cell organisms,they are not isolated individuals.Microbes use various means to communicate with one another.Based on the communication,microbes establish a social interaction with their neighbors in a specific ecological niche,and cooperative behaviors are normally performed to provide benefits on the population and species levels.In the microbiome era,in order to better understand the behaviors of microbes,deep understanding of the social communication between microbes hence becomes a key to interpret microbe behaviors.Here we summarize the molecular mechanisms that underlie the cell-to-cell communication in prokaryotic and eukaryotic microorganisms,the recent discoveries and novel technologies in understanding the interspecies and interkingdom communication,and discuss new concepts of the sociomicrobiology.展开更多
基金National Natural Science Foundation of China(NSFC)(91750205,61377052,61422506,61427819,61605117)National Key Basic Research Program of China(973)(2015CB352004)+3 种基金National Key Research and Development Program of China(2016YFC0102401)Leading Talents of Guangdong Province Program(00201505)Natural Science Foundation of Guangdong Province(2016A030312010,2016A030310063)Excellent Young Teacher Program of Guangdong Province(YQ2014151)
文摘Optical traps use focused laser beams to generate forces on targeted objects ranging in size from nanometers to micrometers. However, for their high coefficients of scattering and absorption, micrometer-sized metallic particles were deemed non-trappable in three dimensions using a single beam. This barrier is now removed. We demon- strate, both in theory and experiment, three-dimensional (3D) dynamic all-optical manipulations of micrometer- sized gold particles under high focusing conditions. The force of gravity is found to balance the positive axial optical force exerted on particles in an inverted optical tweezers system to form two trapping positions along the vertical direction. Both theoretical and experimental results confirm that stable 3D manipulations are achievable for these particles regardl for a variety of in-depth ess of beam polarization and wavelength. research requiting metallic particles. The present work opens up new opportunities .
基金supported by the National Natural Science Foundation of China(31571288)CAS Interdisciplinary Innovation Team and the Newton Advanced Fellowship(NA140085)from the Royal Society
文摘Although microbes primarily are single-cell organisms,they are not isolated individuals.Microbes use various means to communicate with one another.Based on the communication,microbes establish a social interaction with their neighbors in a specific ecological niche,and cooperative behaviors are normally performed to provide benefits on the population and species levels.In the microbiome era,in order to better understand the behaviors of microbes,deep understanding of the social communication between microbes hence becomes a key to interpret microbe behaviors.Here we summarize the molecular mechanisms that underlie the cell-to-cell communication in prokaryotic and eukaryotic microorganisms,the recent discoveries and novel technologies in understanding the interspecies and interkingdom communication,and discuss new concepts of the sociomicrobiology.
