![]() DispersionĬharacteristics, large-signal characteristics, and nonlinear-beam That is driven by a 22-kV and 196-mA electron beam. Time-domain method, predicts a small-signal gain of 15 dB andĪn instantaneous bandwidth of 6% for a 68-period ladder SWS PIC simulator that makes use of the conformal finite-difference Coldand hot-test simulations were performed using High Frequency A small-signal codeīased on Pierce’s theory was developed to determine the dimensions and the small-signal characteristics of the device. Of manufacturing at millimeter wavelengths. Provides wide bandwidth, high interaction impedance, and ease Compared with a conventional helix circuit, the ladder SWS A 3-D particlein-cell (PIC) modeling of a ladder SWS is presented for the first Structure (SWS) operating at 50 GHz is presented. Jae Seung Lee, Hoyoung Song, and Seok-Hyun LeeĪbstract-The design and the analysis of a ladder slow-wave ![]() Douglas, Member, IEEE, Ming-Chieh Lin, Member, IEEE, Peter H. Slow-Wave Structure for a Millimeter-WaveĬhristopher R. 12, DECEMBER 2010Ī 3-D Analysis of a Microfabricated Ladder IEEE TRANSACTIONS ON ELECTRON DEVICES, VOL.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |