Resonant field emission through amorphous diamond thin films (a model study)

“…According to the theoretical prediction presented in Ref. 3, the resonant tunnelling current is mainly attributed to electrons from the edge of the Femi level of the conductive substrate, therefore the resonant tunnelling peak positions are primarily dependent on the electrical field. The current peaks in the field region of 11-12 MV m 1 are in good agreement with theory.…”

“…3,4 Under such resonant tunnelling conditions the emission current can generally reach six orders (10 6 ) of magnitude higher than that of normal status. This resonant property has application in electrical switches and triggers.…”

“…Three major difficulties hamper the experimental investigation: lack of film thickness control (in the theoretical computation the film was treated as a quantum well, i.e. ultrathin amorphous diamond film several nanometres thick is required); as proposed by early authors, 3 variation of emission properties from different emission sites may disguise the resonant signal from the individual signal.…”

Experimental evidence of resonant field emission from ultrathin amorphous diamond thin film

“…According to the theoretical prediction presented in Ref. 3, the resonant tunnelling current is mainly attributed to electrons from the edge of the Femi level of the conductive substrate, therefore the resonant tunnelling peak positions are primarily dependent on the electrical field. The current peaks in the field region of 11-12 MV m 1 are in good agreement with theory.…”

“…3,4 Under such resonant tunnelling conditions the emission current can generally reach six orders (10 6 ) of magnitude higher than that of normal status. This resonant property has application in electrical switches and triggers.…”

“…Three major difficulties hamper the experimental investigation: lack of film thickness control (in the theoretical computation the film was treated as a quantum well, i.e. ultrathin amorphous diamond film several nanometres thick is required); as proposed by early authors, 3 variation of emission properties from different emission sites may disguise the resonant signal from the individual signal.…”

Experimental evidence of resonant field emission from ultrathin amorphous diamond thin film

Novel cold cathode materials and applications

Review on peculiar issues of field emission in vacuum nanoelectronic devices