A model of the photonic spin Hall effect(PSHE)in antisymmetric parity-time(APT)metamaterials with incidence of Gaussian beams is proposed here.We derive the displacement expression of the PSHE in APT metamaterials bas...A model of the photonic spin Hall effect(PSHE)in antisymmetric parity-time(APT)metamaterials with incidence of Gaussian beams is proposed here.We derive the displacement expression of the PSHE in APT metamaterials based on the transport properties of Gaussian beams in positive and negative refractive index materials.Furthermore,detailed discussions are provided on the APT scattering matrix,eigenstate ratio,and response near exceptional points in the case of loss or gain.In contrast to the unidirectional non-reflection in parity-time(PT)symmetric systems,the transverse shift that arises from both sides of the APT structure is consistent.By effectively adjusting the parameters of APT materials,we achieve giant displacements of the transverse shift.Finally,we present a multi-layer APT structure consisting of alternating left-handed and right-handed materials.By increasing the number of layers,Bragg oscillations can be generated,leading to an increase in resonant peaks in transverse shift.This study presents a new approach to achieving giant transverse shifts in the APT structure.This lays a theoretical foundation for the fabrication of related nano-optical devices.展开更多
从贵州省正安县、桐梓县和重庆市南川区的金佛山方竹林地采集方竹根系和根际土壤,采用碱解离-酸性品红染色法对根样进行染色,研究根系丛枝菌根侵染情况,利用湿筛倾注-蔗糖离心法从土样中分离AM真菌孢子,结合形态特征和18S r DNA AML1-A...从贵州省正安县、桐梓县和重庆市南川区的金佛山方竹林地采集方竹根系和根际土壤,采用碱解离-酸性品红染色法对根样进行染色,研究根系丛枝菌根侵染情况,利用湿筛倾注-蔗糖离心法从土样中分离AM真菌孢子,结合形态特征和18S r DNA AML1-AML2区序列的系统发育分析对AM真菌进行种属鉴定。结果显示:AM真菌能够侵染金佛山方竹根系,侵染率为25.27%;从土壤中分离得到6种优势AM真菌,其中4种通过形态特征和18S r DNA AML1-AML2区序列的系统发育分析,均能鉴定到种水平,分别为蜜色无梗囊霉Acaulospora mellea、珠状巨孢囊霉Gigaspora margarita、美丽盾巨孢囊霉Scutellospora calospora和孢璧两性球囊霉Ambispora leptotich,其余2种通过18S r DNA AML1-AML2区序列的系统发育分析鉴定为无梗囊霉属Acaulospora,结合形态特征鉴定为大型无梗囊霉Acaulospora colossica和疣状无梗囊霉Acaulospora tuberculata。展开更多
基金the Natural Science Foundation of Guangdong Province(Grant Nos.2018A030313480 and 2022A1515012377)。
文摘A model of the photonic spin Hall effect(PSHE)in antisymmetric parity-time(APT)metamaterials with incidence of Gaussian beams is proposed here.We derive the displacement expression of the PSHE in APT metamaterials based on the transport properties of Gaussian beams in positive and negative refractive index materials.Furthermore,detailed discussions are provided on the APT scattering matrix,eigenstate ratio,and response near exceptional points in the case of loss or gain.In contrast to the unidirectional non-reflection in parity-time(PT)symmetric systems,the transverse shift that arises from both sides of the APT structure is consistent.By effectively adjusting the parameters of APT materials,we achieve giant displacements of the transverse shift.Finally,we present a multi-layer APT structure consisting of alternating left-handed and right-handed materials.By increasing the number of layers,Bragg oscillations can be generated,leading to an increase in resonant peaks in transverse shift.This study presents a new approach to achieving giant transverse shifts in the APT structure.This lays a theoretical foundation for the fabrication of related nano-optical devices.
文摘从贵州省正安县、桐梓县和重庆市南川区的金佛山方竹林地采集方竹根系和根际土壤,采用碱解离-酸性品红染色法对根样进行染色,研究根系丛枝菌根侵染情况,利用湿筛倾注-蔗糖离心法从土样中分离AM真菌孢子,结合形态特征和18S r DNA AML1-AML2区序列的系统发育分析对AM真菌进行种属鉴定。结果显示:AM真菌能够侵染金佛山方竹根系,侵染率为25.27%;从土壤中分离得到6种优势AM真菌,其中4种通过形态特征和18S r DNA AML1-AML2区序列的系统发育分析,均能鉴定到种水平,分别为蜜色无梗囊霉Acaulospora mellea、珠状巨孢囊霉Gigaspora margarita、美丽盾巨孢囊霉Scutellospora calospora和孢璧两性球囊霉Ambispora leptotich,其余2种通过18S r DNA AML1-AML2区序列的系统发育分析鉴定为无梗囊霉属Acaulospora,结合形态特征鉴定为大型无梗囊霉Acaulospora colossica和疣状无梗囊霉Acaulospora tuberculata。