![]() The sensor improvements would be applicable. Most architectural design changes would not be applicable to warp field lab tests. Nextbigfuture reviewed all of the proposals for improved gravity wave detectors beyond LIGO. Quantum sensing could double the sensitivity of the LIGO (Laser Interferometer Gravitational-Wave Observatory). The LIGO discovery proved that the necessary technologies are evolving. Producing and replicating even a very tiny human-made wave in a laboratory would be a groundbreaking event akin to LIGO, Agnew says. They are trying to increase sensitivity up to one-hundredth of a wavelength and implement the oscillating field in order to get definite results. Unfortunately, although they have already made some progresses in this field, these progresses have been criticized to be mere measurement error caused by the interference of people walking outside the room. What if we can replace exotic matter with something that has similar properties to solve the problem once and for all? From 2006 to 2016, researchers were trying to use a toroidal positive energy density to create a spherical negative-pressure region and thus eliminate the need for exotic matter. In 2018, University of Rochester researchers have succeeded in creating negative mass particles in an atomically thin semiconductor, by causing it to interact with confined light in an optical microcavity. That work confirms physics related to Alcubierre warp propulsion. The LIGO (gravity wave) observatory detected gravity waves from colliding black holes and neutron stars. Any stable warping effect would magnify the capabilities of other propulsion. Then we work on optimizing sensor and increasing the effect size. The point of the Agnew summaries is that there is a roadmap to closing the gap for experiments with the generation of detectable effects. We can boost sensor sensitivity several times. Harold White’s work on warp bubble configuration and bubble thickness brought the theoretical power requirements to 500 kilograms (the mass of Voyager 1.) The work and attempts and experiments in 2014 had a gap between sensors and laser and magnet generation of effects at about 1 million times. The original Alcubierre work needed a Jupiter-mass of exotic material. We can work to experiments to study it and then to optimize the efficiency of producing the desired effects.īrian Wang has been covering the warp theory work since Alcubierre published his work. The detection of gravity waves indicates the effect is real. This was part of a session at The Future of Nuclear and Breakthrough Propulsion”. Joseph Agnew, undergrad and research assistant from the University of Alabama in Huntsville’s Propulsion Research Center (PRC), presented the results of his study “An Examination of Warp Theory and Technology to Determine the State of the Art and Feasibility“.
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