![arxiv:2409.06832v1 [astro-ph.ep] 10 Sep 2024](/simg/9/93f533152874fba6a58ef3580ccc88b71c6fbff2.webp)
机构名称:
¥ 1.0
我们的太阳系的路径最近被证明可能与2和700万年前的密集云层相交:冷云的局部山猫和当地气泡的边缘。这些云压缩了地球球,直接暴露于星际培养基。先前研究了这些范围的气候影响的先前研究,这是由于全球夜光云(NLC)的形成而引起的冰河时代。在这里,我们使用全球Heliospheric磁性水力动力学模型的参数作为输入来重新审视此类研究。我们表明,在这些持续约10 5年的茂密云交叉口中,NLC仍然局限于极地纬度和季节性寿命短。极性臭氧臭氧显着耗尽,但总臭氧柱大致增加。此外,我们表明,最密集的NLC会使表面瞬间达到表面的阳光量减少多达7%,同时将其减少了升降的长波辐射。
arxiv:2409.06832v1 [astro-ph.ep] 10 Sep 2024
主要关键词
![arxiv:2409.06832v1 [astro-ph.ep] 10 Sep 2024PDF文件第1页](/bimg/b/b6f65b165f95bf44e8ed9c61cf49bd878011d4dd.webp)
![arxiv:2409.06832v1 [astro-ph.ep] 10 Sep 2024PDF文件第2页](/bimg/3/313f1f4f4b7d58b553b764bea8e60aebd77a01f8.webp)
![arxiv:2409.06832v1 [astro-ph.ep] 10 Sep 2024PDF文件第3页](/bimg/d/db66992c3cf2487d16f9cacbfe51577ac049d4b3.webp)
![arxiv:2409.06832v1 [astro-ph.ep] 10 Sep 2024PDF文件第4页](/bimg/f/fc8396a1bb8fdaf363544348840e4c4c2b84516d.webp)
![arxiv:2409.06832v1 [astro-ph.ep] 10 Sep 2024PDF文件第5页](/bimg/8/89b7d198f76d3292ad291d24851703284e78bc45.webp)
相关文件推荐
![arxiv:2409.06129v1 [cs.cv] 10 Sep 2024](/simg/c/cc2240fc97865dd7e8a62c0c7bee131b7cf37698.webp)
![arxiv:2409.14173v1 [cs.ai] 21 Sep 2024](/simg/f/f63a98cc3c3864a71fced1ea74c9e0cbfe814d82.webp)
![arxiv:2409.04569v1 [Quant-ph] 6 Sep 2024](/simg/9/96558ac949f00079b8bbe0bde1ff656af6417803.webp)
![arxiv:2409.16636v1 [cs.cl] 25 Sep 2024](/simg/b/b129a6cc9ff56599077700126545c20fcdc020f0.webp)
![arxiv:2409.09972v1 [cs.ro] 16 Sep 2024](/simg/f/ff362a65c62a58b59167bf67a65f0972591c084a.webp)
![arxiv:2409.14633v1 [cs.ro] 23 Sep 2024](/simg/7/7bf81d78b5e22cfcb825fad153a724111581e93c.webp)
![arxiv:2409.08627v1 [Quant-ph] 13 Sep 2024](/simg/e/e0d6b8d2305444681376d085492d460ccff0d0d8.webp)
![arxiv:2409.18502v1 [Quant-ph] 27 Sep 2024](/simg/7/709b594740b2f88d985077820519abcc8df5144b.webp)
![arxiv:2409.17734v1 [Quant-ph] 26 Sep 2024](/simg/8/87040928033babf41a9507c8384f6f5370b12e32.webp)
![arxiv:2409.17759v1 [eess.iv] 26 Sep 2024](/simg/2/2a76c65d7eeb83c3905c9889ad37609048111e07.webp)
![arxiv:2312.17217v3 [astro-ph.co] 16 Sep 2024](/simg/c/c60da249b38205b715f67e65152cf3d0476a318c.webp)
![arxiv:2409.17457V1 [CS.CV] 26 Sep 2024](/simg/2/2fc2ec531c9a2d2eb7f7bb650cdbef87119ef01e.webp)
![arxiv:2409.16808V1 [CS.CV] 25 Sep 2024](/simg/f/f74deee9bbcffa36a70f1eb546e8df14e5499655.webp)
![arxiv:2409.01257v1 [cond-mat.mes-hall] 2 Sep 2024](/simg/e/ea7ae91869e1444a17c5953ebd87e42074046533.webp)
![arxiv:2409.17645v1 [physics.atm-clus] 26 Sep 2024](/simg/5/550c7e5505ea54800f6ae08fb4f122292097d9d9.webp)
![arxiv:2409.13829v1 [cond-mat.supr-con] 20 Sep 2024](/simg/a/a0e92840a89d7b7f338fd09781c051abf1fa3b1a.webp)
![arxiv:2409.15082v1 [cond-mat.str-el] 23 Sep 2024](/simg/2/247f932f2888412a9325221e693eed41be0d7f5b.webp)
![arxiv:2409.08878v1 [cond-mat.mes-hall] 13 Sep 2024](/simg/0/055b9f0fad6a234ef0af8338913f71da267958ef.webp)
![arxiv:2409.06477v1 [cs.ai] 10月10日2024](/simg/5/51881e19b1c231226c62f3bfdc4913e4d918c1d2.webp)
![arxiv:2312.05989v2 [cs.lg] 15 Sep 2024](/simg/4/4a113b15883d212e8cc7acc710d29df13fa90cfd.webp)
![arxiv:2305.19241v8 [cs.cr] 23 Sep 2024](/simg/c/ce570bed83614566168a8aee726a9d156b395521.webp)
![arxiv:2401.08740v2 [cs.cv] 23 Sep 2024](/simg/3/33fbb7365131166a8cfcb2174da1735b80de7c91.webp)
![arxiv:2409.02914v1 [cs.cv] 4月4日2024](/simg/2/2c59d05176315666685a9c6e7ce046d3e8571f66.webp)
![arxiv:2405.14411v2 [CS.AI] 4 Sep 2024](/simg/1/1115abfe48fe64291ecf101f45f411d67ec51b4b.webp)
![arxiv:2312.04564v3 [cs.cv] 26 Sep 2024](/simg/5/53678c5de46f0ed9c6cab944ef0cb9e391f0d622.webp)
![arxiv:2306.05919v2 [Quant-ph] 8 Sep 2024](/simg/a/ad88956097cf5d02b3981691634d5efa9c967a39.webp)
![arxiv:2409.07706v1 [cs.lg] 12月12日2024](/simg/2/2075ffb35ed77cb5869bbdbde29801a66635d8b1.webp)
