Notoriously, the theory of quantum mechanics reveals a fundamental weirdness in the way the world works.
众所周知,量子力学的理论,透露了世界运行之道的根本古怪之处。
Einstein's broader theory of relativity told us more about how the universe works and helped to lay the foundation for quantum physics, but it also introduced more confusion into theoretical science.
爱因斯坦的广义相对论令我们更了解宇宙的运作方式并且为量子物理学打下了基础,但是也为理论科学带了了更大的困惑。
But the answer is, according to the standard interpretation of quantum mechanics, that's not how it works.
但答案是,根据量子力学的标准解释,这并非如此。
Finally, the research works of this paper are summarized and the further exploration and research are discussed in quantum intelligent computing.
最后,对全文的研究工作进行了总结,并展望了量子智能计算有待进一步深入探索和研究的课题。
The outlook of the future works on quantum-dot lasers is given finally.
最后展望了量子点激光器的研究方向。
Described in 1905 by Albert Einstein, quantum physics and photons explained the basic principles of how light energy works.
年,爱因斯坦利用量子物理和光量子理论解释了光能运作的基本原理。
Such super-bunched light is non-classical and can be used for quantum storage and retrieval in quantum information science. The main works of this dissertation are as follows:1.
相比反聚束效应而言,强聚束效应存在于一些多光子态如双光子相干态中,它们有望用于量子计量、量子存储等方面。
Such super-bunched light is non-classical and can be used for quantum storage and retrieval in quantum information science. The main works of this dissertation are as follows:1.
相比反聚束效应而言,强聚束效应存在于一些多光子态如双光子相干态中,它们有望用于量子计量、量子存储等方面。
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