@nattyover Here are papers & reviews about deriving the geodesic motion of point particles from full GR https://t.co/o5SjiGtELv https://t.co/Az06Hk0uKc Sam Gralla @samgralla
@QuantumBrandon @LCTTA the curved-spacetime Green's function for the electromagnetic field has support inside the past light cone (unlike the flat spacetime case, where the support is only on the surface of the past light cone). This screenshot is from Poi
The Motion of Point Particles in Curved Spacetime | SpringerLink https://t.co/MUm9YDUaQi
@JFdonoghue1033 @CburgesCliff @MMylova Regarding how to treat things covariantly, I only know how to do this in position space, not momentum space; namely, to use bitensor Greens functions. I always go to Poisson's LRR (https://t.co/mVzQhwcvgr) to refresh
@rittenhousewest The curved space Green's function having support inside the past light cone has been long appreciated in the relativity literature, see e.g. https://t.co/mVzQhwcvgr
Some of the issues around self-forces are reviewed in: EM: https://t.co/AdFeAloa48 Gravity: https://t.co/ztaMdYyWmS From the latter: “The primary experimental motivation for researching the self-force is to produce waveform templates for LISA”
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RT @QubitZen: The motion of point particles in curved spacetime https://t.co/sEKRgwI0WX
The motion of point particles in curved spacetime https://t.co/sEKRgwI0WX
The motion of point particles in curved spacetime https://t.co/uPa6qqMzne
305 textbook https://t.co/xPoZ4EhJjJ
예전에 한 번 언급한 적 있는 '전하의 자체 가속'이랑 관련이 있는 논문인 듯. 일단 리딩리스트에 올려놔야겠다. (읽으란 논문은 않 읽고! OTL) http://t.co/4L9qz4IxA0
(+2,gr-qc)[1102.0529] Eric Poisson, Adam Pound et al. : The motion of point particles in curved spacetime http://t.co/AsWfGsytqS