Rydberg states of alkali atoms are highly sensitive to electric fields because their electron
wavefunction has a large spatial extent, leading to large polarizabilities for static fields and …

Rydberg atoms-based electric field sensing had developed rapidly over the past decade. A
variety of theoretical proposals and experiment configurations are suggested and realized to …

We present a Rydberg atom-based receiver with amplitude modulation (AM) technique for
the fifth-generation (5G) millimeter-wave wireless communication in a five-level Rb atomic …

We investigate the response bandwidth of a superheterodyne Rydberg receiver at a room-
temperature vapor cell, and present an architecture of multi-channel lasers excitation to …

arxiv:2402.17942v1 [physics.atom-ph] 27 Feb 2024 Page 1 Increased instantaneous bandwidth of
Rydberg atom electrometry with an optical frequency comb probe Alexandra B. Artusio-Glimpse1 …

The advancement of Rydberg Atomic REceiver (RARE) is driving a paradigm shift in
electromagnetic (EM) wave measurement. RAREs utilize the electron transition …

摘要瞬时带宽是里德堡原子微波超外差接收系统的关键技术指标之一, 直接影响其在通信, 雷达,
导航等领域的实际应用. 根据激光-原子-微波相互作用机理, 系统中使用的激光参数对瞬时带宽 …

基于原子系综的量子精密测量体系具有高准确和高稳定的特点, 是未来先进测量体系的发展方向
之一. 其中, 基于里德堡原子的电场测量具有高灵敏, 超宽带以及优异的电气隔离等特性 …

里德堡原子是一种高激发态的原子, 具有较大电偶极矩, 相邻能级差可覆盖DC~ THz
的超宽频谱范围, 因而可以实现电磁场高灵敏, 超宽带的传感接收. 基于里德堡原子的无线电光学 …

The quantum precision measurement system based on atomic ensembles possesses high
accuracy and stability, making it one of the directions for the development of advanced …