程澈敲响了书房的门,拿着一碗燕窝椰奶冻走到温颂身边,弯下腰轻轻抱过她说:“宝贝呀,怎么放假了还工作?很晚了,早点休息哦。”
“嗯。”温颂伸了个懒腰,尝了口燕窝,拉着程澈坐到电脑前,指着屏幕上的数据图说,“你看这个,是Aurora和ALMA传来的data of dark matter gravitational waves,和我之前在实验室里模拟的,几乎一模一样。”
程澈看着屏幕里两张几乎一样的数据图,虽然不能完全看懂,但也大概明白了温颂说的意味着什么,侧过头亲了亲温颂说:“好棒呀老婆,你的假设都是正确的。”
“yes.”温颂笑着点点头,“和假设的一样,这里,目前aurora正在土星和天王星轨道之间,dark matter density is noticeably lower than that of the asteroid belt. But here, TNR, the density reaches a peak, even far higher than that of asteroid belt.
(这片区域的暗物质密度聚集明显低于小行星带,但是这里,是海王星外区域,密度达到了峰值,甚至远高于小行星带)
Previously accepted view was Neptune’s migration and the resonance effects with Kuiper Belt objects led to orbital shifts. However, based on observations from ALMA, Aurora, and my previous experiments with gravitational wave detectors at Kuper… I can now essentially determine there are dark stars in Kuiper Belt, but whether they are dark stars or primordial black holes… still need another simulation experiment via WDM Model, and then wait until Aurora reaches Kuiper Belt to make a final determination based on the dark matter halo detection data it sends b
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