Inventors of Quantum Cryptography Win Turing Award
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<p>Charles Bennett and Gilles Brassard have <a href="https://www.nytimes.com/2026/03/18/technology/turing-award-winners-quantum-cryptography.html">won</a> the 2026 Turing Award for inventing quantum cryptography.</p><p>I am incredibly pleased to see them get this recognition. I have always thought the technology to be fantastic, even though I think it’s largely unnecessary. I wrote up my thoughts back in 2008, in an <a href+https://www.schneier.com/essays/archives/2008/10/quantum_cryptography.html”>essay titled “Quantum Cryptography: As Awesome As It Is Pointless.”</p><p>Back then, I wrote:</p><blockquote> <p>While I like the science of quantum cryptography—my undergraduate degree was in physics—I don’t see any commercial value in it. I don’t believe it solves any security problem that needs solving. I don’t believe that it’s worth paying for, and I can’t imagine anyone but a few technophiles buying and deploying it. Systems that use it don’t magically become unbreakable, because the quantum part doesn’t address the weak points of the system.</p> <p>Security is a chain; it’s as strong as the weakest link. Mathematical cryptography, as bad as it sometimes is, is the strongest link in most security chains. Our symmetric and public-key algorithms are pretty good, even though they’re not based on much rigorous mathematical theory. The real problems are elsewhere: computer security, network security, user interface and so on.</p> <p>Cryptography is the one area of security that we can get right. We already have good encryption algorithms, good authentication algorithms and good key-agreement protocols. Maybe quantum cryptography can make that link stronger, but why would anyone bother? There are far more serious security problems to worry about, and it makes much more sense to spend effort securing those.</p> <p>As I’ve often said, it’s like defending yourself against an approaching attacker by putting a huge stake in the ground. It’s useless to argue about whether the stake should be 50 feet tall or 100 feet tall, because either way, the attacker is going to go around it. Even quantum cryptography doesn’t “solve” all of cryptography: The keys are exchanged with photons, but a conventional mathematical algorithm takes over for the actual encryption.</p> </blockquote><p>What about quantum computation? I’m <a href="https://www.schneier.com/essays/archives/2018/09/cryptography_after_t.html">not worried</a>; the math is ahead of the physics. Reports of progress in that area are <a href="https://eprint.iacr.org/2025/1237">overblown</a>. And if there’s a security crisis because of a quantum computation breakthrough, it’s because our systems aren’t crypto-agile.</p><div class="spu-placeholder" style="display:none"></div><div class="addtoany_share_save_container addtoany_content addtoany_content_bottom"><div class="a2a_kit a2a_kit_size_20 addtoany_list" data-a2a-url="https://securityboulevard.com/2026/03/inventors-of-quantum-cryptography-win-turing-award/" data-a2a-title="Inventors of Quantum Cryptography Win Turing Award"><a class="a2a_button_twitter" href="https://www.addtoany.com/add_to/twitter?linkurl=https%3A%2F%2Fsecurityboulevard.com%2F2026%2F03%2Finventors-of-quantum-cryptography-win-turing-award%2F&linkname=Inventors%20of%20Quantum%20Cryptography%20Win%20Turing%20Award" title="Twitter" rel="nofollow noopener" target="_blank"></a><a class="a2a_button_linkedin" href="https://www.addtoany.com/add_to/linkedin?linkurl=https%3A%2F%2Fsecurityboulevard.com%2F2026%2F03%2Finventors-of-quantum-cryptography-win-turing-award%2F&linkname=Inventors%20of%20Quantum%20Cryptography%20Win%20Turing%20Award" title="LinkedIn" rel="nofollow noopener" target="_blank"></a><a class="a2a_button_facebook" href="https://www.addtoany.com/add_to/facebook?linkurl=https%3A%2F%2Fsecurityboulevard.com%2F2026%2F03%2Finventors-of-quantum-cryptography-win-turing-award%2F&linkname=Inventors%20of%20Quantum%20Cryptography%20Win%20Turing%20Award" title="Facebook" rel="nofollow noopener" target="_blank"></a><a class="a2a_button_reddit" href="https://www.addtoany.com/add_to/reddit?linkurl=https%3A%2F%2Fsecurityboulevard.com%2F2026%2F03%2Finventors-of-quantum-cryptography-win-turing-award%2F&linkname=Inventors%20of%20Quantum%20Cryptography%20Win%20Turing%20Award" title="Reddit" rel="nofollow noopener" target="_blank"></a><a class="a2a_button_email" href="https://www.addtoany.com/add_to/email?linkurl=https%3A%2F%2Fsecurityboulevard.com%2F2026%2F03%2Finventors-of-quantum-cryptography-win-turing-award%2F&linkname=Inventors%20of%20Quantum%20Cryptography%20Win%20Turing%20Award" title="Email" rel="nofollow noopener" target="_blank"></a><a class="a2a_dd addtoany_share_save addtoany_share" href="https://www.addtoany.com/share"></a></div></div><p class="syndicated-attribution">*** This is a Security Bloggers Network syndicated blog from <a href="https://www.schneier.com/">Schneier on Security</a> authored by <a href="https://securityboulevard.com/author/0/" title="Read other posts by Bruce Schneier">Bruce Schneier</a>. Read the original post at: <a href="https://www.schneier.com/blog/archives/2026/03/inventors-of-quantum-cryptography-win-turing-award.html">https://www.schneier.com/blog/archives/2026/03/inventors-of-quantum-cryptography-win-turing-award.html</a> </p>