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
🪐 One of the most extreme magnetic environments in the universe exists around the magnetar SGR 1806-20, whose magnetic field is over a quadrillion times stronger than Earth's. Such powerful magnetism can twist the surface of the magnetar, trigger bursts of energy that outshine entire galaxies for a moment, and bend the very fabric of space nearby—making magnetars like SGR 1806-20 true cosmic powerhouses. ✨
#magnetars⚡#neutronstars⚡#extremes⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 The magnetar XTE J1810–197, located about 10,000 light-years from Earth, possesses a magnetic field more than 100 trillion times stronger than Earth's, making it one of the most powerful magnets in the universe. Such extreme magnetic forces can dramatically twist the star's crust, unleashing bursts of X-rays and radio waves that briefly transform XTE J1810–197 into a cosmic beacon visible across our galaxy. ✨
#magnetars⚡#neutronstars⚡#xray⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 The magnetar CXOU J164710.2–455216, found in the star cluster Westerlund 1, possesses an extreme magnetic field estimated at nearly 3 quadrillion times stronger than Earth's. Such powerful magnetism can not only fracture the star's crust but also alter physical laws around it, making magnetars like CXOU J164710.2–455216 some of the most intense and unpredictable objects known in the cosmos. ✨
#magnetars⚡#neutronstars⚡#magnetism⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 In 2020, astronomers traced a fast radio burst called FRB 200428 to our own Milky Way and found it came from a magnetar named SGR 1935+2154. This was the first time a fast radio burst—a super-short flash of radio energy from space—was directly linked to a known type of object, showing that magnetars, which are neutron stars with extremely strong magnetic fields, can produce these intense cosmic signals. ✨
#fastbursts⚡#magnetars⚡#milkyway⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 The magnetar Swift J1818.0−1607, discovered in 2020, has one of the fastest spins ever seen—rotating once every 1.36 seconds—and its magnetic field is up to a thousand trillion times stronger than a regular fridge magnet. Magnetars like Swift J1818.0−1607 are rare neutron stars with magnetic forces so intense they can reshape atoms and trigger sudden bursts of high-energy X-rays and gamma rays, making them some of the most extreme objects in the Milky Way. ✨
#magnetars⚡#neutronstars⚡#extrememagnetism⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 Near the center of the Small Magellanic Cloud, scientists have discovered a magnetar called SXP 1062 with a magnetic field so strong it can reshape atoms and trigger intense X-ray outbursts. Magnetars are a rare kind of neutron star—ultra-dense remnants of exploded massive stars—whose magnetic fields are trillions of times stronger than Earth's and can even change the properties of empty space around them, making these cosmic magnets among the universe's most extreme phenomena. ✨
#magnetars⚡#neutronstars⚡#spacefacts⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 The magnetar SGR 1900+14, located about 20,000 light-years away in the constellation Aquila, holds one of the strongest magnetic fields ever measured—over 100 trillion times stronger than Earth's. When its magnetic field twists and snaps, SGR 1900+14 unleashes enormous flares of X-rays and gamma rays that can briefly outshine every other X-ray source in our galaxy. ✨
#magnetars⚡#neutronstars⚡#extrememagnetism⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 At the heart of the supernova remnant Kes 73 lies the magnetar 1E 1841-045, which boasts a magnetic field over a thousand trillion times stronger than Earth's. These extreme fields can twist and shatter the crust of the neutron star—an object so dense that a sugar-cube-sized piece would outweigh Mount Everest—releasing bursts of powerful X-rays and gamma rays that briefly light up its cosmic neighborhood. ✨
#magnetars⚡#neutronstars⚡#xraybursts⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 The magnetar SGR 1935+2154, found in the constellation Vulpecula, is famous for combining an ultra-strong magnetic field—over a quadrillion times stronger than Earth's—with sudden bursts of energy known as fast radio bursts. Magnetars like SGR 1935+2154 pack so much magnetic power that their fields can twist and snap the star’s surface, unleashing flares that can light up the galaxy for a brief moment. ✨
#magnetars⚡#neutronstars⚡#extremestars⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 The magnetar SGR 0501+4516, discovered in the constellation Perseus, has a magnetic field estimated to be more than 10 trillion times stronger than Earth's. This incredible power makes the area around it so extreme that atoms themselves can be stretched into unusual shapes, showing how magnetars are some of the most intense and mysterious objects in our universe. ✨
#magnetars⚡#neutronstars⚡#extremestars⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 In the heart of the Milky Way, the magnetar Swift J1818.0−1607 was discovered in 2020 and boasts a magnetic field over a quadrillion (1,000,000,000,000,000) times stronger than Earth's. This incredible power can twist and crack the surface of the magnetar, triggering sudden explosions of X-rays and gamma rays that ripple through space—making magnetars some of the most extreme and mysterious stars known. ✨
#magnetars⚡#neutronstars⚡#extremespace⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 The magnetar 1E 1048.1–5937 is famous for its mind-bending magnetic field—over 100 trillion times stronger than Earth's. These extreme magnetars can twist and snap their crusts, releasing bursts of X-rays and gamma rays so powerful they briefly outshine every other X-ray source in the galaxy when they erupt. ✨
#magnetars⚡#neutronstars⚡#xraybursts⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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