研究目的
To propose fast and sufficiently accurate models for retarding systems (RS) such as double-shifted combs in a rectangular screen and RS of the looping waveguide type based on the diaphragm conductivity calculation in a rectangular waveguide (RW), facilitating correct account of losses and calculating the dispersion of a double comb and looping waveguide with infinitely thin walls.
研究成果
The paper proposes fast and accurate models for retarding systems based on diaphragm conductivity in a rectangular waveguide, including multimode models that account for losses. The models are useful for simulating shifted combs and RSs of the looping waveguide type with a mirror symmetry plane and a wider operating band.
研究不足
The models are primarily theoretical and may require validation through experimental studies. The assumption of infinitely thin diaphragms may not hold for all practical applications.
