quantum supremacy

소리없이

“ This problem of security is also leading to a new technology called quantum key distribution, which transfers encryption keys using entangled qubits, so that one can detect immediately if someone is hacking into your network. Already, Japan’s Toshiba company has predicted that QKD may generate up to $3 billion in revenue by the end of this decade. ”

『양자컴퓨터의 미래 - 양자컴퓨터 혁명은 세상을 어떻게 바꿀 것인가』 미치오 카쿠 지음, 박병철 옮김

문장모음 보기

소리없이

1. superconducting quantum computer: IBM 2. ion trap quantum computer: Honeywell 3. photonic quantum computer: China, Xanadu 4. silicon photonic quantum computer: PsiQuantum 5. topological quantum computer: Microsoft, Delft University of Technology 6. D-wave quantum computer: Canada(D-Wave company)

소리없이

“ Whirlwind advances in quantum computers are giving birth to new sciences called computational chemistry and quantum biology. Finally, quantum computers are making it possible to create realistic models of molecules, allowing scientists the ability to see, atom for atom, nanosecond by nanosecond, how chemical reactions take place. ”

『양자컴퓨터의 미래 - 양자컴퓨터 혁명은 세상을 어떻게 바꿀 것인가』 미치오 카쿠 지음, 박병철 옮김

문장모음 보기

소리없이

“ Through these means biologists were able to slowly understand the life history of plants. But one step always eluded them. How do plants capture the energy of photons of light in the first place? What starts this long chain of events, beginning with the capture of the energy of sunlight? It remains a mystery to this day. But quantum computers may help unravel it. ”

『양자컴퓨터의 미래 - 양자컴퓨터 혁명은 세상을 어떻게 바꿀 것인가』 미치오 카쿠 지음, 박병철 옮김

문장모음 보기

소리없이

“ The photon of light impacts chlorophyll, and this creates energy vibrations on the leaf, called excitons, which somehow travel along the surface of the leaf. Eventually, these excitations enter what is called a collection centre on the surface of the leaf, where the energy of exciton is used to convert carbon dioxide into oxygen. … Instead, miraculously, the energy of the exciton is carried to the collection centre with almost no energy loss at all. For reasons that are still not understood, this process is almost 100 percent efficient. ”

『양자컴퓨터의 미래 - 양자컴퓨터 혁명은 세상을 어떻게 바꿀 것인가』 미치오 카쿠 지음, 박병철 옮김

문장모음 보기

소리없이

“ For example, trying to model the penicillin molecule with a conventional computer faces an enormous challenge. Doing so would require 10^86 bits of computer memory, far beyond the capability of any digital computer. But this is within the capability of a quantum computer. So trying to discover new drugs by analyzing their molecular behaviour can be a prime target for quantum computers. ”

『양자컴퓨터의 미래 - 양자컴퓨터 혁명은 세상을 어떻게 바꿀 것인가』 미치오 카쿠 지음, 박병철 옮김

문장모음 보기

소리없이

“ The reason is that they have 220 million nasal scents receptors, while humans have only 5 million. So their sense of smell is many times more accurate than that of humans. It is so accurate that they can detect concentrations of one part per trillion, which is equivalent to detecting a single drop of liquid in twenty Olympic-sized swimming pools. And the area of their brain devoted to analyzing smells is much larger than its counterpart in human brains. ”

『양자컴퓨터의 미래 - 양자컴퓨터 혁명은 세상을 어떻게 바꿀 것인가』 미치오 카쿠 지음, 박병철 옮김

문장모음 보기

소리없이

“ Normally, we think of our lives as a series of accidents, coincidences, and random experiences. But with enhanced AI, we will one day be able to edit this treasure trove of memories and arrange it in an orderly fashion. And quantum computers will help sort through this material, using search engines to find missing background material and editing the narrative. In some sense, our digital selves will never die. So perhaps our legacy of cherished personal memories and achievements does not have to dissipate and scatter with the shifting sands of time when we pass away. Perhaps quantum computers will give us a form of immortality. ”

『양자컴퓨터의 미래 - 양자컴퓨터 혁명은 세상을 어떻게 바꿀 것인가』 미치오 카쿠 지음, 박병철 옮김

문장모음 보기

소리없이

“ The first inkling of a crack in the Standard Model came from the Fermi National Accelerator Laboratory outside Chicago in 2021. The huge particle detector there found a slight deviation in the magnetic properties of mu measons (which are commonly found in cosmic rays). A massive amount of data had to be analised to find this tiny deviation, but if holds up, it could signal the presence of new forces and interactions beyond the Standard Model. ”

『양자컴퓨터의 미래 - 양자컴퓨터 혁명은 세상을 어떻게 바꿀 것인가』 미치오 카쿠 지음, 박병철 옮김

문장모음 보기

소리없이

As with Michio Kaku’s other publications, the book proves compelling in its exposition of diverse research endeavours currently under way across the globe. The purported superiority of quantum computers derives from their capacity to transcend temporal constraints. When the inquiry into how surpasses the limits imposed by time, nature begins to unveil the fine structure of its operative principles. Only then does the possibility emerge that humanity may address—and ultimately resolve—the pressing problems with which it is presently confronted. Thus, we may ask again: Can there exist questions that remain impervious even to the overcoming of temporal limitations? And further: Can ‘quantum humanity’ truly be regarded as an evolved form of our present? Fin. 2025.10.31.FRI

중간에 참여할 수 없는 모임입니다

글타래

화제 모음

지정된 화제가 없습니다