Frequency-Transient
The Frequency-Transient () study and study step are used to compute temperature changes over time together with the electromagnetic field distribution in the frequency domain.
The study is available with the following physics interface and module combinations:
Physics interfaces that support the Frequency-Transient study and study step compute electromagnetic fields in the frequency domain and temperature (electron temperature for Inductively Coupled Plasma and Microwave Plasma) in the time domain. See Time Dependent for all settings.
Only use this study when the power transfer from the fields to any susceptible variables occurs at twice the angular frequency set by the study. In a large number of cases, the thermal time constant of an object of interest is substantially greater than the angular frequency of the electromagnetic radiation. In order to solve the problem in the time domain, tens or hundreds of thousands of RF cycles need to be computed by the solver before the problem evolves to the periodic steady-state solution. By solving for the fields in the frequency domain, the change in the fields over a single RF cycle does not need to be resolved and thus the periodic steady state solution is reached much more rapidly. This means that the transient, thermal response of an object is computed by this study, but any (small) fluctuations in temperature over any given RF cycle are not.
With the AC/DC Module, see Inductive Heating of a Copper Cylinder, Application Library path ACDC_Module/Electromagnetic_Heating/inductive_heating.
With the Plasma Module (plus AC/DC Module), see 3D ICP Reactor, Argon Chemistry, Application Library path Plasma_Module/Inductively_Coupled_Plasmas/argon_3d_icp.
With the RF Module, see RF Heating, Application Library path RF_Module/Microwave_Heating/rf_heating.