Bolei Yang (杨博雷)

Assistant professor

研究兴趣为极端天气气候事件的演变机理和预报技术，目前的研究对象主要为大气湿对流和热带气旋。主持多项科研项目，以第一/通讯作者身份在JAS, GRL, JGR等期刊上发表学术论文12篇（含一篇JAS独立作者）。

Email：yang.bolei@nju.edu.cn

ORCID：https://orcid.org/0000-0002-1094-4860

本课题组常年招收博士后，欢迎相关方向的博士生和博士后咨询。

Education

2010.9-2014.6 NUIST, B.S.

2014.9-2021.4 Nanjing University, Ph.D.

Professional appointments

2021.5-2023.4 Peking University，Boya postdoc fellow

2023.5-2025.8 Peking University，Associate research scientist

2024.4-2025.4 UC Berkeley，EPS，Visiting Scholar

Service

Associate editor of QJRMS

Reviewer for JAS,JGR-A and QJRMS

Teaching

Undergraduate <dynamic meteorology>

Graduate <atmospheric dynamics>,<introducion to atmospheric sciences>

Grants and funding

2024 China Postdoctoral Science Foundation (2024T170011)：Mechanism of convective self-aggregation.

2022 NSCF for the young scientist(42205004)：Mechanism of radiation on tropical cyclone evolution.

代表工作

2026

B. Yang, The Control of Tropical Cyclone Wind Structure on Inner and Outer Rainband Formation: A Balanced Dynamics Perspective. J. Atmos. Sci.,83, 801-817. （独立完成，揭示了不同风场结构通过调控雨带发展，进而改变台风增强范式的机制。）

B. Yang, J. Nie, Z.Tan et al. Quasi‐Periodic Behavior of Tropical Cyclone Precursors and Its Phase Matching With the Insolation Diurnal Cycle. Geophysical Research Letters, 2026, 53, e2025GL121568.（揭示了台风胚胎最主要的演变模态：对流耦合的惯性重力振荡，并且提出了该模态与辐射日循环锁相耦合对台风生成的加速机理。）

2025

Qu, M., Shen, L., Zeng, Z., B. Yang et al. Prolonged wind droughts in a warming climate threaten global wind power security. Nat. Clim. Chang. 15, 842–849 (2025).

B. Yang, W. Boos, Z. Tan and J. Nie.: Internal Oscillations of Tropical Mesoscale Convective Disturbances. J. Atmos. Sci.,82, 2611-2629.（揭示了中尺度对流系统的一个普遍的内在属性：对流耦合的惯性重力振荡。该属性作为中尺度对流系统的内在模态，将成为未来进一步认识中尺度对流系统的奠基石之一。）

B. Yang, Z. Tan and J. Nie: Water Vapor Deficit-Induced Equilibrium Shift in Convective Self-Aggregation: Dry Expansion and Wet Moistening. J. Atmos. Sci.,82, 2061–2076.（提出了辐射对流平衡下对流和干区分化的理论框架，为研究对流的组织化机理和热带气候演变奠定了新的理论基础。）

B. Yang et al.: Interaction between inner and outer rainbands may lead to a second rapid intensification in idealized tropical cyclone simulations. Journal of Geophysical Research: Atmospheres, 130, e20241D042517.（提出了热带气旋快速增强的全新途径：雨带相互作用，打开了雨带活动影响热带气旋强度变化研究的全新一页。）

2023

Wang, Y., B. Yang*, and Z. Tan: Cloud-radiation feedback facilitates secondary eyewall formation of tropical cyclones. Journal of Geophysical Research: Atmospheres, 128, e2022JD038205. 

2022

Yang, B., X. Guo, J. Gu and J. Nie: Cloud‐Radiation Feedback Prevents Tropical Cyclones From Reaching Higher Intensities, Geophysical Research Letters, 2022, 49(24).

2021

Yang. B., J. Nie and Z. Tan; Radiation Feedback Accelerates the Formation of Typhoon Haiyan (2013): The Critical Role of Mid-Level Circulation, Geophysical Research Letters, 2021, 48(16): 0-e2021GL094168.

2020

Yang. B. and Z. Tan: The Initiation of Dry Patches in Cloud Resolving Convective Self-aggregation Simulations: Boundary Layer “Dry-subsidence” Feedback. J. Atmos. Sci., 77, 4129–4141.

Yang. B. and Z. Tan: Interactive Radiation Accelerates the Intensification of the Mid-level Vortex for Tropical Cyclogenesis. J. Atmos. Sci., 77, 4051–4065.（提出了辐射通过强化层云过程和中层涡旋，加速热带气旋生成的主要机理，为辐射过程影响热带气旋生成的研究搭建了理论框架。）