The dark web is a part of the internet that isn't indexed by search engines. You've no doubt heard talk of the “dark web” as a hotbed of criminal activity — and it is. Researchers Daniel Moore and Thomas Rid of King's College in London classified the contents of 2,723 live dark web sites over a five-week period in 2015 and found that 57% host illicit material.
A 2019 study, Into the Web of Profit, conducted by Dr. Michael McGuire's at the University of Surrey, shows that things have become worse. The number of dark web listings that could harm an enterprise has risen by 20% since 2016. Of all listings (excluding those selling drugs), 60% could potentially harm enterprises.
You can buy credit card numbers, all manner of drugs, guns, counterfeit money, stolen subscription credentials, hacked Netflix accounts and software that helps you break into other people’s computers. Buy login credentials to a $50,000 Bank of America account, counterfeit $20 bills, prepaid debit cards, or a “lifetime” Netflix premium account. You can hire hackers to attack computers for you. You can buy usernames and passwords.
Not everything is illegal, the dark web also has a legitimate side. For example, you can join a chess club or BlackBook, a social network described as the “the Facebook of Tor.”
Note: This post contains links to dark web sites that can only be accessed with the Tor browser, which can be downloaded for free at https://www.torproject.org.
"Quantum Teleportation Across The Dark Web"
Quantum teleportation brings to mind Star Trek's transporter, where crew members are disassembled in one location to be reassembled in another. Real quantum teleportation is a much more subtle effect where information is transferred between entangled quantum states. It's a quantum trick that could give us the ultimate in secure communication. While quantum teleportation experiments have been performed countless times in the lab, doing it in the real world has proved a bit more challenging. But a recent experiment using a dark
fibre portion of the internet has brought quantum teleportation one step closer to real world applications.
The backbone of the internet is a network of optical fibre. Everything from your bank transactions to pictures of your cat travel as beams of light through this fibre network. However there is much more fibre that has been laid than is currently used. This unused portion of the network is known as dark fibre. Other than not being currently used, the dark fiber network has the same properties as the web we currently use. This new experiment used a bit of this dark web in Calgary to teleport a photon state under real world conditions.
The basic process of quantum teleportation begins with two objects (in this case photons) that are quantumly entangled. This basically means the state of these two objects are connected in such a way that a measurement of one object affects the state of the other. For quantum teleportation, one of these entangled objects is measured in combination with the object to be "teleported" (another photon). The result of this measurement is then sent to the other location, where a similar combined measurement is made. Since the entangled objects are part of both measurements, quantum information can be "teleported." This might seem like an awkward way to send information, but it makes for a great way to keep your messages secret. Using this method, Alice can basically encrypt a message using the entangled objects, send the encrypted message to Bob, who can then make his own measurement of the entangled state to decode the message.
This new experiment used a variation of this method using three observers rather than two. Using the Bob and Alice analogy, Bob and Alice each make measurements of an entangled state and a photon, about 8 kilometers from each other. Their results are then sent to Charlie, who combines the two results to achieve quantum teleportation. This method assures that the experiment extends beyond a single lab location, and it was done using existing dark fibre and wavelengths of light commonly used in current fibre internet.
Overall the experiment demonstrates that quantum teleportation can be used as a way to encrypt messages over the web. The next big challenge will be to find a way to make it practical enough for everyone to use.
Good knowledge
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