Professor Ge Guangbo(葛广波)joined Shanghai University of Traditional Chinese Medicine(上海中医药大学,SHUTCM)as a full professor and vice dean of Institute of Interdisciplinary Integrative Medicine Research in 2017.In...Professor Ge Guangbo(葛广波)joined Shanghai University of Traditional Chinese Medicine(上海中医药大学,SHUTCM)as a full professor and vice dean of Institute of Interdisciplinary Integrative Medicine Research in 2017.In 2021,he served as executive vice dean of the Institute of Interdisciplinary Integrative Medicine Research at SHUTCM.He has been awarded the National Natural Science Fund for Excellent Young Scholars,the National Young Qihuang Scholar(青年岐黄学者).展开更多
Applying the transfer matrix and Green’s function methods,we study the valley-resolved transport properties of zigzag graphene nanoribbon(ZGN_(R))junctions.The width of the left and right ZGN_(R)s are N_(L)and N_(R),...Applying the transfer matrix and Green’s function methods,we study the valley-resolved transport properties of zigzag graphene nanoribbon(ZGN_(R))junctions.The width of the left and right ZGN_(R)s are N_(L)and N_(R),and N_(L)≥N_(R).The step/dip positions of the conductance G,the intravalley transmission coefficients(TKKand TK’K’),and the valley polarization efficiency PK’K correspond to the subband edges of the right/left ZGN_(R)that are controlled by N_(R)/N_(L).The intervalley transmission coefficients(TKK and TK’K)exhibit peaks at most of the subband edge of the left and right ZGN_(R)s.In the bulk gap of the right ZGN_(R),TKK’=TK’K=0,and PKK’=±1,the valley polarization is well preserved.As N_(R)increases,the energy region for PK’K=±1 decreases.When N_(L)is fixed and N_(R)decreases,G,TKK,TK’K’and PKK’exhibit more and more dips,and the peaks of TKK’(TK’K)become more and more high,especially when(N_(L)-N_(R))/2 is odd.These characters are quite useful for manipulating the valley dependent transport properties of carriers in ZGN_(R)junctions by modulating N_(L)or N_(R),and our results are helpful to the design of valleytronics based on ZGN_(R)junctions.展开更多
文摘Professor Ge Guangbo(葛广波)joined Shanghai University of Traditional Chinese Medicine(上海中医药大学,SHUTCM)as a full professor and vice dean of Institute of Interdisciplinary Integrative Medicine Research in 2017.In 2021,he served as executive vice dean of the Institute of Interdisciplinary Integrative Medicine Research at SHUTCM.He has been awarded the National Natural Science Fund for Excellent Young Scholars,the National Young Qihuang Scholar(青年岐黄学者).
文摘Applying the transfer matrix and Green’s function methods,we study the valley-resolved transport properties of zigzag graphene nanoribbon(ZGN_(R))junctions.The width of the left and right ZGN_(R)s are N_(L)and N_(R),and N_(L)≥N_(R).The step/dip positions of the conductance G,the intravalley transmission coefficients(TKKand TK’K’),and the valley polarization efficiency PK’K correspond to the subband edges of the right/left ZGN_(R)that are controlled by N_(R)/N_(L).The intervalley transmission coefficients(TKK and TK’K)exhibit peaks at most of the subband edge of the left and right ZGN_(R)s.In the bulk gap of the right ZGN_(R),TKK’=TK’K=0,and PKK’=±1,the valley polarization is well preserved.As N_(R)increases,the energy region for PK’K=±1 decreases.When N_(L)is fixed and N_(R)decreases,G,TKK,TK’K’and PKK’exhibit more and more dips,and the peaks of TKK’(TK’K)become more and more high,especially when(N_(L)-N_(R))/2 is odd.These characters are quite useful for manipulating the valley dependent transport properties of carriers in ZGN_(R)junctions by modulating N_(L)or N_(R),and our results are helpful to the design of valleytronics based on ZGN_(R)junctions.
