DN42 access
本服务为那些无法轻松访问自身网络的用户以及希望体验 dn42 但又不想承担维护自有网络成本的用户提供 dn42 连接
默认情况下,地址从/96地址块中分配,如果您希望租用独立的/96前缀或更大的地址空间,请按照联系方式联系我
所有公开的PoP均已屏蔽来自中国境内的 IP 地址。如果您确实需要dn42 access,请与我联系并提供合理的理由
该服务由AS4242423377提供
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The service provides DN42 connectivity to members who cannot easily access their own networks, as well as to those who would like to explore DN42 without the overhead of maintaining their own network.
By default, addresses are allocated from a /96 block. If you wish to lease a dedicated /96 prefix or a larger address space, please contact me using the methods provided in the contact information.
All publicly accessible PoP are blocked for IPs originating from within China. DN42 access from within China is not publicly available. If you genuinely require access, please contact me and provide a valid justification.
Hosted by AS4242423377.
Policy
本服务需要花费时间和金钱才能运行,但为了您的利益,我们免费提供。使用本服务是一种特权,而非权利。您必须合理使用本服务,以确保其他用户也能继续享受同样的便利。任何滥用、误用或干扰服务或其他用户的行为都可能导致您的访问权限立即被暂停或终止。
滥用行为包括但不限于:
- 过度使用资源
- 黑客攻击、病毒、木马等,或任何其他可能损害服务或对服务及其用户造成风险的干扰行为
- 传播可能导致民事或刑事责任的不良内容
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This service require real time and financial resources to operate, yet are provided free of charge for your benefit. Access to the services is a privilege, not a right. You must use the services responsibly and considerately to ensure that other users can continue to enjoy the same opportunities. Any misuse, abuse, or activities that disrupt the service or other users may result in immediate suspension or termination of access.
Abuse could include, but is not limited to:
- Excessive use of resources
- Hacking, viruses, trojans etc or any other disruption that could harm or create risk to the services or its users
- Distribution of objectional content that could create a civil or criminal liability
PoP
## Toronto, Canada
Prefix: fdb6:fc6a:e66c:724f:fad1:d2cf::/96
Zerotier: 4753cf475f65b0fb
## Los Angeles, USA
coming soon
#announcement#service
🪐 The quasar J0313–1806 is one of the most distant known objects in the universe, shining from over 13 billion light-years away. Quasars are the bright centers of young galaxies powered by supermassive black holes, and J0313–1806’s powerful light reveals it existed just 670 million years after the Big Bang, allowing astronomers to study the early universe’s first giant black holes and galaxies. ✨
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🪐 Astronomers have confirmed that even the most distant light we see from galaxies like GN-z11—whose glow began its journey over 13.4 billion years ago—travels at exactly the same constant speed of 299,792 kilometers per second as light here on Earth. This unchanging speed of light lets scientists measure cosmic time and distance across the universe, meaning every photon from GN-z11 carries a record of its unimaginably long trip through space and the early history of everything we see. ✨
#speedoflight⚡#galaxies⚡#distances⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 The speed of light acts as the ultimate speed limit in our universe—no information or object can travel faster than 299,792 kilometers per second, not even the most powerful pulses from the Crab Pulsar in the heart of the Crab Nebula. This constant speed is what lets astronomers measure vast cosmic distances, and it’s the reason we see stars, galaxies, and even supernova explosions like SN 1987A as they were in the past, not as they are right now. ✨
#speedoflight⚡#spacetime⚡#distances⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 In the vacuum of space, the speed of light is an incredible 299,792 kilometers per second—so fast that a beam from the Sun takes just over eight minutes to reach Earth, even though the distance is about 150 million kilometers. When astronomers observe events like a supernova in the galaxy NGC 2525, they're actually seeing what happened years, decades, or even millions of years ago, because the light takes that long to cross vast cosmic distances. ✨
#speedoflight⚡#space⚡#distances⚡#supernova⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos
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🪐 The galaxy MACS0647-JD is among the most distant objects ever observed by the Hubble Space Telescope—its light started traveling toward us about 13.3 billion years ago, when the universe was less than 4% of its current age. Seeing MACS0647-JD allows scientists to peer back to the era when the very first galaxies began to form, offering a glimpse into the universe's ancient youth. ✨
#galaxies⚡#distances⚡#cosmicmysteries⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 RX J0911+0551 is one of the most distant gravitationally lensed quasars ever found, with its light traveling about 11 billion years to reach us. This quasar—an extremely bright object powered by a supermassive black hole—appears as several split images in the sky because a massive galaxy between us and RX J0911+0551 bends and magnifies its light, acting as a "gravitational lens" and allowing scientists to glimpse extreme distances near the edge of the visible universe. ✨
#quasars⚡#spacelensing⚡#distances⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 The planet Mercury orbits just 58 million kilometers from the Sun, but even this smallest orbit is immense—large enough to fit nearly 150 Earth-Moon distances end to end. In contrast, the distance from the Sun to Neptune, the most distant major planet, is about 4.5 billion kilometers, meaning a signal traveling at the speed of light takes over four hours to cross our solar system from center to edge. ✨
#distances⚡#solar⚡#Mercury⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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