Yu Heshan
School
School of Microelectronics
Professional Title
Associate professor
Contact Information
heshanyu@tju.edu.cn
827 Building 20, Tianjing University; 92 Weijin Road, Nankai District, Tianjin
300072
Brief Introduction
Heshan Yu, a tenured associate professor at the School of Microelectronics, Tianjin University, focuses on the research of new materials, principles and devices in the integrated circuit. Welcome the student in physics, materials, microelectronics, computer science, and intergrated circuit to join.
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
- Quantum Materials and device physics
- Integrated Optical Neural Networks and Optical Computing
- High-throughput Technique and Machine Learning Methods
Professional Membership
- 学术桥评审专家库成员
- Guest Editor of Special Issue in Symmetry: "Symmetry and New Advances in Unconventional Superconductors"
Positions & Employments
-
2022.11-Now
 School of Microelectronics, Tianjin University | Associate professor  -
2017.10-2022.10
 University of Maryland, College Park | Post-doc 
Academic Achievements
- Papers
- [1] Novel nanocomposite-superlattices for low energy and high stability nanoscale phase- change memory
- [2] Freeform direct-write and rewritable photonic integrated circuits in phase-change thin films
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- [3] Tunable structural transmissive color in fano-resonant optical coatings employing phase-change materials
- [4] Magnetic phase diagram mapping in Fe1−xRhx composition-spread thin films
- [5] Energy Efficient Neuro-inspired Phase Change Memory Based on Ge4Sb6Te7 as a Novel Epitaxial Nanocomposite
- [6] Scaling of the strange-metal scattering in unconventional superconductors
- [7] Harnessing Optoelectronic Noises in a Photonic Generative Network
- [8] Deep Learning for Rapid Analysis of Spectroscopic Ellipsometry Data
- [9] Non-volatile Multi-level Switching in Artificial Synaptic Transistors Based on Epitaxial LiCoO2 Thin Films
- [10] Magnetoelastic Gilbert damping in magnetortrictive Fe0.7Ga0.3 thin film
- [11] Programmable Phase-change Metasurface for Multimode Photonic Convolutional Neural Network
- [12] Quantum criticality tuned by magnetic field in optimally electron-doped cuprate thin films
- [13] Two-magnon frequency-pulling effect in ferromagnetic resonance
- [14] On-the-fly Closed-Loop materials discovery via Bayesian active learning
- [15] Self-organization of various ‘phase-seperated’ nanostructures in a single chemical vapor deposition
- [16] Tuning the Hysteresis of a Metal-Insulator Transition via Lattice Compatibility
- [17] Effect of annealing process on mechanical properties of n-type La1.9Ce0.1CuO4 superconducting films by depth sensing nanoindentation
- [18] Bosonic excitations and electron pairing in an electron-doped cuprate superconductor
- [19] Low-Loss Integrated Photonic Switch Using Subwavelength Patterned Phase Change Material
- [20]
- [21] Spin-orbital polarons in electron doped copper oxides
- [22] Healing effect of controlled anti-electromigration on conventional and high-Tc superconducting na
- [23] Dielectric functions of La-based cuprate superconductors for visible and near-infrared wavelength
- [24] Fermi surface reconstruction and anomalous low-temperature resistivity in electron-doped La2-xCexCuO4
- [25] Anomalous in-plane magnetoresistance of electron-doped cuprate La2-xCexCuO4±δ
- [26] Manipulating composition gradient in cuprate superconducting thin films
- [27] Transport anomalies and quantum criticality in electron-doped cuprate superconductors
- [28] An ellipsometric study of the optical properties of n-type superconductor La1.9Ce0.1CuO4
- [29] A brief analysis of annealing process for electron-doped cuprate superconductors
- [30] Anomalous magnetoresistance in the spinel superconductor LiTi2O4
- Honors & Awards
- [1] MML Distinguished Associate Accolade