The double barrier quantum well(DBQW) resonant tunneling diode(RTD) structure made of SiGeSn/GeC/SiGeSn alloys grown on Ge substrate is analyzed. The tensile strained Ge(1-z)Cz on Si(1-x-y)GexSny heterostructu...The double barrier quantum well(DBQW) resonant tunneling diode(RTD) structure made of SiGeSn/GeC/SiGeSn alloys grown on Ge substrate is analyzed. The tensile strained Ge(1-z)Cz on Si(1-x-y)GexSny heterostructure provides a direct band gap type I configuration. The transmission coefficient and tunneling current density have been calculated considering single and multiple quantum wells. A comparative study of tunnelling current of the proposed structure is done with the existing RTD structure based on GeSn/SiGeSn DBH. A higher value of the current density for the proposed structure has been obtained.展开更多
基金supports from B.P.Poddar Institute of Management and Technology(ECE Dept),Kolkatasupport by TEQIP-PhaseⅢunder University College of Technology-Calcutta University(UCT-CU)through award of a fellowship
文摘The double barrier quantum well(DBQW) resonant tunneling diode(RTD) structure made of SiGeSn/GeC/SiGeSn alloys grown on Ge substrate is analyzed. The tensile strained Ge(1-z)Cz on Si(1-x-y)GexSny heterostructure provides a direct band gap type I configuration. The transmission coefficient and tunneling current density have been calculated considering single and multiple quantum wells. A comparative study of tunnelling current of the proposed structure is done with the existing RTD structure based on GeSn/SiGeSn DBH. A higher value of the current density for the proposed structure has been obtained.
