A Method for Transmitting Spacecrafts in Space with Velocity of at Least 0.01 of the Light Speed Using the Electromagnetic Force of Highly Negative Charged Particles in High Electric Fields

Many space new missions are on calendar this decade for Moon, Mars and other planets. Some of these missions are depending on simple reliable chemical thrusters but others are depending on the nonchemical advanced propulsion techniques. Although these methods may save time and produce faster journeys, we are still in need for faster methods to travel in space. What about reaching Mars in hours instead of months? Electron beam can do, and so do we; by replacing the electrons with other charged particles using the same electron beam principles. This is a fundamental research on enabling the electron beam to attract objects via its electromagnetic field and to transmit them with an approximate speed reaching at least 0.01 of light speed depending on the dual nature of the electron as a wave and particle, then applying the same principles on larger particles with better characters. The main idea lies in making the electron beam the basic structure in the new process and to build a whole new technology for spacecrafts to travel faster in space with much less cost. The process is based on the cathode ray tube design with consideration of deflection, acceleration and other properties of the electron beam.