Cloaks, editors, and bubbles: applications of spacetime transformation theory

TL;DR

This paper explores the design and implications of spacetime transformation devices, including event cloaks, spacetime distortions, and exotic concepts like causality editors, with practical proposals for implementation.

Contribution

It introduces methods for designing spacetime cloaks in simple wave systems and discusses their properties, implications, and potential applications in spacetime modeling and causality control.

Findings

Design methods for spacetime cloaks using speed and full-wave approaches

Analysis of directional nature and spacetime distortions of transformation devices

Proposal for implementing causality editors and a bubbleverse model

Abstract

Spacetime or `event' cloaking was recently introduced as a concept, and the theoretical design for such a cloak was presented for illumination by electromagnetic waves [McCall, Favaro, Kinsler, Boardman 2011]. Here we describe how event cloaks can be designed for simple wave systems, using either an approximate `speed cloak' method, or an exact full-wave one. Further, we discuss in detail many of the implications of spacetime transformation devices, covering their (usually) directional nature, spacetime distortions (as opposed to cloaks), and how leaky cloaks manifest themselves. We also address more exotic concepts that follow naturally on from considerations of simple spacetime transformation devices, such as spacetime modeling and causality editors; and describe a proposal for implementing the interrupt-without-interrupt concept suggested by McCall et al. We also describe how we might make a simple time-dependent `bubbleverse' by embedding a modulated Maxwell's Fisheye transformation device (T-device) in a flat background spacetime.