Using Jet Stream's Precursors to Make Earthquake Forecast

Using <em>Jet stream's </em>precursors, seismic locations are identified. Our research indicates that an interruption of the velocity flow lines occurs just above the epicenter approximately 3 months prior to <em>Earthquake </em>events. The duration of this phenomenon is approximately 6 – 12 hours. The average distance between epicenters and <em>Jet stream's </em>precursors is about 100 km. We explain these relationships while reviewing 8 successful <em>Earthquake </em>forecasts recently. For example: M8.3 Chile EQ on 2015/09/16; M6.6 Taiwan EQ on 2016/02/05; M7.0 Kumamoto, Japan EQ on 2016/04/15; M6.2 Italy EQ on 2016/08/24; M7.1Alaska EQ on 2018/11/30; M6.7 Chile EQ on 2019/01/20; M6.3 Japan EQ on 2019/01/08; M7.1 LA EQ on 2019/07/06. According to the hypothesis of Lithosphere-Atmosphere- <em>Ionosphere </em>Coupling (LAIC), when the <em>Jet streams </em>pass over the active epicenter region, the faults release radioactive material (ionized gases) to the atmosphere, causing a series of physical and chemical reactions, resulting in temperature and pressure changes in the atmosphere, <em>Jet streams</em>, and electric field effects in the ionosphere. A <em>Solar Induction </em>mechanism affecting the Eastern and Western Pacific Rims where most of the <em>Earthquakes </em>were successfully forecast is explored in electrical terms with a proposed <em>Plasma Tectonics </em>model.