Yu Heshan
School
School of Microelectronics
Professional Title
Associate professor
Contact Information
heshanyu@tju.edu.cn
928 Building 20, Tianjing University; 92 Weijin Road, Nankai District, Tianjin
300072
Brief Introduction
于和善,天津大学微电子学院英才副教授,博士生导师,主要研究方向为发挥高通量技术和机器学习方法特色,围绕后摩尔时代应用于人工智能领域的新材料、器件与集成系统开展探索与研究,在Nature, Nature communications, Science advances等期刊发表SCI论文30多篇,欢迎微电子、集成电路、物理、计算机和材料等专业的学生加入。
Education Background
- Doctoral degree| Institute of Physics, Chinese Academy of Sciences| Condensed Matter Physics| 2017
- Bachelor's Degree| Department of Physics, Shandong University| Physics| 2012
Research Interests
- Micro- and nano- photonic devices
- Wafer-scale intelligent integrated system
Positions & Employments
-
2022.11-Now
School of Microelectronics | Tianjin University | Associate professor -
2017.10-2022.9
Department of Materials Science and Engineering | University of Maryland, College Park | Research Associate
Academic Achievements
- Papers
- [1] Real- time experiment- theory closed- loop interactionfor autonomous materials science
- [2] Reconfigurable inverse-designed phase-change photonics
-
- [3] Novel nanocomposite-superlattices for low energy and high stability nanoscale phase- change memory
- [4] Freeform direct-write and rewritable photonic integrated circuits in phase-change thin films
- [5] Tunable structural transmissive color in fano-resonant optical coatings employing phase-change materials
- [6] Magnetic phase diagram mapping in Fe1−xRhx composition-spread thin films
- [7] Energy Efficient Neuro-inspired Phase Change Memory Based on Ge4Sb6Te7 as a Novel Epitaxial Nanocomposite
- [8] Scaling of the strange-metal scattering in unconventional superconductors
- [9] Harnessing Optoelectronic Noises in a Photonic Generative Network
- [10] Deep Learning for Rapid Analysis of Spectroscopic Ellipsometry Data
- [11] Non-volatile Multi-level Switching in Artificial Synaptic Transistors Based on Epitaxial LiCoO2 Thin Films
- [12] Magnetoelastic Gilbert damping in magnetortrictive Fe0.7Ga0.3 thin film
- [13] Programmable Phase-change Metasurface for Multimode Photonic Convolutional Neural Network
- [14] Quantum criticality tuned by magnetic field in optimally electron-doped cuprate thin films
- [15] Two-magnon frequency-pulling effect in ferromagnetic resonance
- [16] On-the-fly Closed-Loop materials discovery via Bayesian active learning
- [17] Self-organization of various ‘phase-seperated’ nanostructures in a single chemical vapor deposition
- [18] Tuning the Hysteresis of a Metal-Insulator Transition via Lattice Compatibility
- [19] Effect of annealing process on mechanical properties of n-type La1.9Ce0.1CuO4 superconducting films by depth sensing nanoindentation
- [20] Bosonic excitations and electron pairing in an electron-doped cuprate superconductor
- [21] Low-Loss Integrated Photonic Switch Using Subwavelength Patterned Phase Change Material
- [22] The effects of oxygen in spinel oxide Li1+xTi2−xO4−δ thin films
- [23] Spin-orbital polarons in electron doped copper oxides
- [24] Healing effect of controlled anti-electromigration on conventional and high-Tc superconducting na
- [25] Dielectric functions of La-based cuprate superconductors for visible and near-infrared wavelength
- [26] Fermi surface reconstruction and anomalous low-temperature resistivity in electron-doped La2-xCexCuO4
- [27] Anomalous in-plane magnetoresistance of electron-doped cuprate La2-xCexCuO4±δ
- [28] Manipulating composition gradient in cuprate superconducting thin films
- [29] Transport anomalies and quantum criticality in electron-doped cuprate superconductors
- [30] An ellipsometric study of the optical properties of n-type superconductor La1.9Ce0.1CuO4
- [31] A brief analysis of annealing process for electron-doped cuprate superconductors
- [32] Anomalous magnetoresistance in the spinel superconductor LiTi2O4
- Honors & Awards
- [1] MML Distinguished Associate Accolade