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Study of the Effective Field Emitting Angle for an Individual Carbon Nanotube
Nannan Li,Zhe Wu,Jianlong Liu,Hai Zhang,Jing Guo,Baoqing Zeng 한국물리학회 2013 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.63 No.6
In this work, the effective field emitting angle θeff is introduced for a carbon nanotube (CNT)to relate the spatial variation of the current density along the tip’s surface to the emission current. The emission current can now be calculated by using I = 2π(1-cosθeff )r2J(0), where J(0) is theemission current density at the apex and r is the radius of curvature of the tips. Analytical resultsshow that θeff depends on the macroscopic field E0, the aspect ratio h/r and the normalized fielddistribution on the tip’s surface E(θ)/E(0). Simulation results show that E(θ)/E(0) converges withincreasing h/r and can be fitted by using a formula when h/r > 500. Finally, a fit function for θeff is obtained for h/r > 500 and E0 in the range of 1 - 25 V/µm.
Study of the Electric Field Screening Effect for Field Emitter Arrays
Nannan Li,Fei Yan,Shucai Pang,Lei Chen,Dazhi Jin,Wei Xiang,De Zhang,Jingyi Dai,Baoqing Zeng 한국물리학회 2015 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.66 No.8
Understanding the influence of the interaction of emitters on the field emission performance of a field emitter array is of great importance for the design of a multi-emitter device. In this work, a screening factor S is defined to quantify the effect of electric field screening due to the interaction of emitters in an array. A three-dimensional finite integration technique is used to study the electric field screening effect for Spindt-type field emitter arrays which have potential applications in flatscreen displays and high-power vacuum electronics. The dependences of the electric field screening on the tip-to-tip spacing, half-angle of the emitter, height of the emitter and radius of the tip’s curvature are analyzed. The effects of the variations in the size of the emitter’s geometry on the most efficient arrangement to achieve maximum emission efficiency in an array are discussed.