Quantum vs Classical & Useful Quantum Effects

2020-09-07 15:56:18 | Share this post:

Quantum theory offers not only nonlocal correlations, but also other bizarre features that do not seem to fit well with our intuition. For instance, our everyday experience is that reading off the time from a clock does not stop it from ticking, but quantum theory dictates that any observation (interaction) with a quantum system necessarily perturbs its evolution. The quantum zeno effect in particular forbids the state from evolving if the system is being measured all the times. How do we reconcile this "disturbing" feature of quantum theory with our everyday experience? Meanwhile, quantum information has taught us that quantum effects can also serve as powerful resources. Our goal here is thus to identify features of the theory that are fundamentally different from our classical intuitions, and in particular quantum effects that are useful, for instance, for future technologies.

其他研究成果

IBMQ 教學影片

IBMQ 量子電腦簡易教學 這些影片可以幫助初學者開啟使用量子電腦的第一步。 首先,我們會教你如何申請使用IBM的雲端量子電腦,並教你如何使用量子電腦的圖形化介面,當你對操縱量子電腦的量子邏輯閘有一定了解後,我們會教你如何製造量子疊加態和量子糾纏態,因為這兩個特別的量子態將會是未來你們使用更複雜的量子演算法的基礎。 量子科普IBMQ帳戶申請 Quantum composer 介紹 Toolbar 介紹 量子疊加態的示範 量子糾纏態...

Read More

Quantum vs Classical & Useful Quantum Effects

Quantum theory offers not only nonlocal correlations, but also other bizarre features that do not seem to fit well with our intuition. For instance, our everyday experience is that reading off the time from a clock does not stop it from ...

Read More

Device-independent Quantum Information

Nonlocal quantum correlations are not only intriguing, but also serve as an indispensable resource for device-independent (DI) quantum information processing. Within the DI paradigm,  conclusions are drawn directly from the raw data meas...

Read More