Solitons in space-time capable of transporting time-like observers at superluminal speeds have long been tied to violations of the weak, strong, and dominant energy conditions of general relativity. The negative-energy sources required for these solitons must be created through energy-intensive uncertainty principle processes as no such classical source is known in particle physics. This paper overcomes this barrier by constructing a class of soliton solutions that are capable of superluminal motion and sourced by purely positive energy densities. The solitons are also shown to be capable of being sourced from the stress–energy of a conducting plasma and classical electromagnetic fields. This is the first example of hyper-fast solitons resulting from known and familiar sources, reopening the discussion of superluminal mechanisms rooted in conventional physics.

长期以来，能够以超光速运送像时间一样的观察者的时空孤子一直与对广义相对论的弱，强和支配能量条件的侵犯有关。这些孤子所需的负能量源必须通过耗能大的不确定性原理过程来创建，因为粒子物理学中尚无此类经典源。本文通过构造一类能够超腔运动并以纯正能量密度为源的孤子解决方案克服了这一障碍。还显示了孤子能够从导电等离子体的应力能量和经典电磁场中获得。这是由已知和熟悉的来源产生的超高速孤子的第一个示例，