Abstract
With the rapid developing of high energy lasers and ultrashort high intensity lasers, high energy density conditions, which widely exist in astronomical environment and nuclear explosion, can be created in laboratories. This provides new opportunities for various physics fields and forms new interdisciplinary frontiers. In this review, recent studies of astronomic phenomena in a controllable way in laboratories with high power lasers will be first presented. Then prospects of the new physics driven by next generation ultra-relativistic lasers will be discussed.
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