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华东师范大学精密光谱科学与技术国家重点实验室导师教师师资介绍简介-杨涛

本站小编 Free考研考试/2021-01-16

杨涛 紫江青年研究员研究员、博士生导师
精密光谱科学与技术国家重点实验室??????


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个人资料
研究方向
开授课程
科研项目
学术成果
荣誉及奖励







个人资料
部门: 精密光谱科学与技术国家重点实验室
毕业院校: 中国科学技术大学、美国俄克拉荷马大学
学位: 博士
学历: 研究生
邮编: 200062
联系电话:
传真:
电子邮箱: tyang@lps.ecnu.edu.cn
办公地址:
通讯地址:

教育经历
中国 科学技术大学 学士学位 (2002-2006)
美国 俄克拉荷马大学 博士学位 (2007-2012)

工作经历
美国 夏威夷大学 博士后研究员 (2012-2017)
中国 华东师范大学 紫江青年研究员 (2017-今)


个人简介
致力于分子精密光谱与精密测量、分子反应动力学的相关研究,迄今在PNAS,Nature Communications, Journal of the American Chemical Society, Angewandte Chemie International Edition等国际学术刊物上发表论文40余篇,主要使用原子分子光学实验技术与物理化学方法,利用基于极性分子精密光谱测量与操控实验装置、单分子碰撞条件下的交叉分子束装置、同步辐射光源下的高温热解装置,研究小分子的分子精密光谱与分子动力学效应,为物理量精密测量、天体与大气科学、燃烧学研究提供实验参考依据。相关研究获得中央高校基本科研基金、基金委面上项目、上海市高校特聘****人才计划、上海市青年拔尖人才计划、上海市浦江人才计划、华东师范大学紫江青年人才启动基金等项目与计划支持。

社会兼职


研究方向
分子精密光谱与物理精密测量(Precision Spectroscopy and Precision Measurement using Polar Molecules)
The fundamental particles may possess permanent electric dipole moments (EDMs) that may be able to explain the T-reversal violation or Charge-Parity violation, the asymmetry of anti-matter over matter and so forth. Different models beyond the Standard Model predict EDM values which are attainable nowadays by the aid of the laser technology,molecular beam development and other techniques. Here we plan to carry out a fully optical double-resonance quantum beat measurement of the electron’s Electric Dipole Moment(eEDM) using a heavy diatomic molecule PbF. The molecular beam of molecules created in a buffer gas cooling apparatus enters a region of spacewhere it is polarized and a specific mixture of quantum states is selected. The beam travels an appropriate distance, and then the quantum state is probed to determine the quantum phase accumulated between the state preparation and probe steps. Here we seek tomove towards a new upper limit on the eEDM using a beam of PbF molecules that travel 40 cm through a region of uniform electric field in an optical quantum beat experiment. We also plan to test the precision of our calculations of geometric phase by implementing a voltage-controlled geometric phase rotator. Finally, if time permits, we will evaluate Stark guides for their suitability in an eEDM measurement. By allowing state-selected molecules to be guided in a long two-dimensional trap, a guided eEDM measurement would achieve coherence times that are comparable to the ion trap, but with countrates comparable to a conventional molecular beam machine.


分子反应动力学(Molecular Reaction Dynamics:Chemistry in the Universe)
The overeaching goal of this project is to explore experimentally in an innovative ultra-high vacuum space simulation chamber the formation of key classes of complex organic molecules (COMs) – organic molecules containing atoms of carbon, hydrogen, oxygen, and nitrogen - upon interaction of ionizing radiation in the form of galactic cosmic rays (GCRs) and Lyman α photons with interstellar ice analog samples and to constrain the level of mole-cu-lar com-ple-xity of organic molecules that can ultimately be synthesized in the interstellar medium (ISM). These key classes are aldehydes(HCOR), ketones (RCOR'), carboxylic acids (RCOOH), esters (RCOOR'), amides (RCONH2), and isocyanates (RNCO). Those objectives are achieved by syste-ma-ti-cally replicating the condi-tions of ice-coated interstellar grains in a novel, next-generation ultra-high va-cu-um surface scat-tering ma-chi-ne thro-ugh the exposure of interstellar ice analog samples resembling ices in cold molecular clouds as well as in low- and high-mass star forming regions at astrophysically rele-va-nt tem-pe-ra-tures (10 K to 50 K) to ioni-zi-ng radiation in form of secondary electrons generated in the track of galactic cosmic rays and Lyman α photons (10.2 eV). This research follows a radically distinct approach and applies a transformative methodology by probing the synthesis of COMs on line and in situ via com-ple-men-tary de-tec-t-ion schemes in the condensed phase (Infrared, Raman, UVVIS) and upon sub-li-mation of COMs into the gas phase via the progressive techno-logy of tunable, fragment-free vacuum ultraviolet (VUV) photoionization.This unique space simulation chamber allows the extraction of transformative concepts on the synthesis of COMs in inter-stellar ices upon exposure to ioni-zi-ng radiation by exploiting a novel technology through the exploitation of tunable vacuum ultraviolet photo-ioni-zation as delivered from a synchrotron (Hefei).



开授课程
大学物理实验课程


科研项目
紫江青年人才启动基金
中央高校基本科研基金
基金委面上项目
上海市面上项目
XXX
XXX
XXX


学术成果
1.Tao Yang, Luke Bertels, Beni B. Dangi, Xiaohu Li, Martin Head-Gordon, Ralf I. Kaiser, Gas phase formation of c-SiC3molecules in the circumstellar envelope of carbon stars, Proc. Natl. Acad. Sci. USA 116, 14471-14478 (2019)
2.Xueyan Xu,Tao Yang,Shunyong Hou, and Jianping Yin,Controllable chip-based beam splitter for cold polar molecules,Phys. Rev. A100, 013411 (2019)
3.Zhenghai Yang, Jing Li, Qinning Lin, Liang Xu, Hailing Wang, Tao Yang, and Jianping Yin, Laser-cooled HgF as a promising candidate to measure the electric dipole moment of the electron, Phys. Rev. A99, 032502 (2019)
4.Aaron M. Thomas, Beni B. Dangi, Tao Yang, Gy?rgy Tarczay, Ralf I. Kaiser, Bing-Jian Sun, Si-Ying Chen, Agnes H. H. Chang, Thanh L. Nguyen, John F. Stanton, Alexander M. Mebel, Directed Gas-Phase Formation of the Germaniumsilylene Butterfly Molecule (Ge(μ?H2)Si), J. Phys. Chem. Lett.10, 1264?1271 (2019)
5.Aaron M. Thomas , Beni B. Dangi, Tao Yang, Ralf I. Kaiser , Bing-Jian Sun, Tzu-Jung Chou, Agnes H.H. Chang, A Crossed Molecular Beams Investigation of the Reactions of Atomic Silicon (Si(3P)) with C4H6Isomers (1,3-Butadiene, 1,2-Butadiene, and 1-Butyne), Chem. Phys.520, 70-80, (2019)
6.Tao Yang, Aaron M. Thomas, Beni B. Dangi, Ralf I. Kaiser, Alexander M. Mebel, and Tom J. Millar, Directed Gas Phase Formation of Silicon Dioxide and Implications for the Formation of Interstellar Silicates, Nat. Commun.9, 774 (2018)
7.Michael Lucas, Aaron M Thomas, Tao Yang, Ralf I Kaiser, Alexander M Mebel, Diptarka Hait, and Martin Head-Gordon,Bimolecular Reaction Dynamics in the Phenyl–Silane System: Exploring the Prototype of a Radical Substitution Mechanism, J. Chem. Phys. Lett. 9, 5135-5142 (2018)
8.Aaron M. Thomas, Beni B. Dangi, Tao Yang, Ralf I. Kaiser, Lin Lin, Tzu-Jung Chou, and Agnes H. H. Chang, Are Nonadiabatic Reaction Dynamics the Key to Novel Organosilicon Molecules? The Silicon (Si(3P))-Dimethylacetylene (C4H6(X1A1g)) System as a Case Study, J. Phys. Chem. Lett.9, 3340-3347 (2018)
9.Tao Yang, Ralf I. Kaiser, Tyler P. Troy, Bo Xu, Oleg Kostko, Musahid Ahmed, Alexander M. Mebel, Marsel V. Zagidullin, and Valeriy N. Azyazov, HACA's Heritage: A Free Radical Pathway to Phenanthrene in Circumstellar Envelopes of Asymptotic Giant Branch Stars, Angew. Chem. Int. Ed.56, 4515-4519 (2017)
10.Tao Yang, Beni B. Dangi, Ralf I. Kaiser, Kang-Heng Chao, Bing-Jian Sun, Agnes H. H. Chang, Thanh Lam Nguyen, and John F. Stanton, Gas Phase Formation of the Disilavinylidene (H?SiSi) Transient, Angew. Chem. Int. Ed. 56, 1264-1268 (2017)
11.Tao Yang, Beni B. Dangi, Aaron M. Thomas, Ralf I. Kaiser, Bing-Jian Sun, Monika Stás, and Agnes H. H. Chang,Gas-Phase Synthesis of the Elusive Trisilicontetrahydride Species (Si3H4), J. Phys. Chem. Lett.8, 131-136 (2017)
12.Long Zhao, Tao Yang, Ralf I. Kaiser, Tyler P. Troy, Musahid Ahmed, Daniel Belisario-Lara, Joao M. Ribero, and Alexander M. Mebel, Combined Experimental and Computational Study on the Unimolecular Decomposition of JP-8 Jet Fuel Surrogates. I. n-Decane (n-C10H22), J. Phys. Chem. A 121, 1261-1280 (2017)
13.Long Zhao, Tao Yang, Ralf I. Kaiser, Tyler P. Troy, Musahid Ahmed, Joao M. Ribero, Daniel Belisario-Lara, and Alexander M. Mebel, Combined Experimental and Computational Study on the Unimolecular Decomposition of JP-8 Jet Fuel Surrogates. II. n-Dodecane (n-C12H26),J. Phys. Chem. A121, 1281-1297 (2017)
14.Long Zhao, Tao Yang, Ralf I. Kaiser, Tyler P. Troy, Bo Xu, Musahid Ahmed, Juan Alarcon, Daniel Belisario-Lara, Alexander M. Mebel, Yan Zhang, Chuangchuang Cao, and Jiabiao Zou, A Vacuum Ultraviolet Photoionization Study on High-Temperature Decomposition of JP-10 (exo-Tetrahydrodicyclopentadiene), Phys. Chem. Chem. Phys.19, 15780-15807 (2017)
15.Aaron M. Thomas, Michael Lucas, Tao Yang, Ralf I. Kaiser, Luis Fuentes, Daniel Belisario-Lara, Alexander M. Mebel, A Free Radical Pathway to Hydrogenated Phenanthrene in Molecular Clouds - Low Temperature Growth of Polycyclic Aromatic Hydrocarbons, ChemPhysChem 18, 1971 – 1976 (2017)
16.Aaron M. Thomas, Tao Yang, Beni B. Dangi, Ralf I. Kaiser, Gap-Sue Kim, and Alexander M. Mebel, Oxidation of the para-Tolyl Radical by Molecular Oxygen under Single-Collision Conditions: Formation of the para-Toloxy Radical, J. Phys. Chem. Lett.7, 5121-5127 (2016)
17.Tao Yang, Tyler P. Troy, Bo Xu, Oleg Kostko, Musahid Ahmed, Alexander M. Mebel and Ralf I. Kaiser, Hydrogen-Abstraction/Acetylene-Addition Exposed, Angew. Chem. Int. Ed.55, 14983-14987 (2016)
18.Tao Yang, Beni B. Dangi, Aaron M. Thomas, Bing-Jian Sun, Tzu-Jung Chou, Agnes H. H. Chang and Ralf I. Kaiser, Gas Phase Synthesis of 1-Silacyclopenta-2,4-diene, Angew. Chem. Int. Ed.55, 7983-7987 (2016)
19.Tao Yang, Aaron M. Thomas, Beni B. Dangi, Ralf I. Kaiser, Mei-Hung Wu, Bing-Jian Sun and Agnes H. H. Chang, Formation of the 2,3-Dimethyl-1-silacycloprop-2-enylidene Molecule via the Crossed Beam Reaction of the Silylidyne Radical (SiH; X2Π)with Dimethylacetylene (CH3CCCH3; X1A1g), J. Phys. Chem. A120, 7262-7268 (2016)
20.Tao Yang, Beni B. Dangi, Ralf I. Kaiser, Luke W. Bertels and Martin Head-Gordon, A Combined Experimental and Theoretical Study on the Formation of the 2-Methyl-1-silacycloprop-2-enylidene Molecule via the Crossed Beam Reaction of the Silylidyne Radical (SiH; X2Π) with Methylacetylene (CH3CCH; X1A1) and D4-Methylacetylene (CD3CCD; X1A1), J. Phys. Chem. A120, 4872-4883 (2016)
21.Tao Yang, Beni. B. Dangi, Aaron M. Thomas, Ralf I. Kaiser, Untangling the Reaction Dynamics of the Silylidyne Radical (SiH; X2Π) with Acetylene (C2H2; X1g+), Chem. Phys. Lett.654, 58-62 (2016)
22.Dorian S. N. Parker, Tao Yang, Beni B. Dangi, Ralf I. Kaiser, Partha P. Bera, and Timothy J. Lee, Low Temperature Formation of Nitrogen-substituted Polycyclic Aromatic Hydrocarbons (PANHs)- Barrierless Routes to Dihydro(iso)quinolones, Astrophys. J.815, 115 (2015)
23.Tao Yang, Beni B. Dangi, Pavlo Maksyutenko, Ralf I. Kaiser, Luke W. Bertels and Martin Head-Gordon, Combined Experimental and Theoretical Study on the Formation of the Elusive 2-Methyl-1-silacycloprop-2-enylidene Molecule under Single Collision Conditions via Reactions of the Silylidyne Radical (SiH; X2Π) with Allene (H2CCCH2; X1A1) and D4-Allene (D2CCCD2; X1A1), J. Phys. Chem. A119, 12562-12578 (2015)
24.Tao Yang, Dorian S. N. Parker, Beni B. Dangi, Ralf I. Kaiser and Alexander M. Mebel, Formation of 5- and 6-Methyl-1H-Indene (C10H10) via the Reactions of the Para-Tolyl Radical (C6H4CH3) with Allene (H2CCCH2) and Methylacetylene (HCCCH3) under Single Collision Conditions, Phys. Chem. Chem. Phys. 17, 10510-10519 (2015)
25.Tao Yang, Lloyd Muzangwa, Ralf I. Kaiser, Adeel Jamal and Keiji Morokuma, A Combined Crossed Molecular Beam and Theoretical Investigation of the Reaction of the Meta-tolyl Radical with Vinylacetylene - toward the Formation of Methylnaphthalenes, Phys. Chem. Chem. Phys. 17, 21564-21575 (2015)
26.Tao Yang, Lloyd Muzangwa, Dorian S. N. Parker, Ralf I. Kaiser and Alexander M. Mebel, Formation of 2- and 1-Methyl-1,4- Dihydronaphthalene Isomers via the Crossed Beam Reactions of Phenyl Radicals (C6H5) with Isoprene (CH2C(CH3)CHCH2) and 1,3-Pentadiene (CH2CHCHCHCH3), Phys. Chem. Chem. Phys.17, 530-540 (2015)
27.Lloyd G. Muzangwa,Tao Yang, Dorian S. N. Parker, Ralf. I. Kaiser, Alexander M. Mebel, Adeel Jamal, Mikhail Ryazantsev and Keiji Morokuma, A Crossed Molecular Beam and Ab Inito Study on the Formation of 5- and 6-Methyl-1,4-dihydronaphthalene (C11H12) via the Reaction of Meta-tolyl (C7H7) with 1,3-Butadiene (C4H6),Phys. Chem. Chem. Phys.17, 7699-7706 (2015)
28.Tao Yang, Dorian S. N. Parker, Beni B. Dangi, Ralf I. Kaiser, Domenico Stranges, Yuan-Hsiang Su, Si-Ying Chen, Agnes H. H. Chang and Alexander M. Mebel, Directed Gas-Phase Formation of the Ethynylsulfidoboron Molecule, J. Am. Chem. Soc.136, 8387-8392 (2014)
29.Tao Yang, Dorian S. N. Parker, Beni B. Dangi, Ralf I. Kaiser, Vadim V. Kislov and Alexander M. Mebel, Crossed Beam Reactions of the Phenyl (C6H5; X2A1) and Phenyl-d5 Radical (C6D5; X2A1) with 1,2-Butadiene (H2CCCHCH3; X1A’), J. Phys. Chem. A118, 4372-4381 (2014)
30.Tao Yang, Beni B. Dangi, Dorian S. N. Parker, Ralf I. Kaiser, Yi An and Agnes H. H. Chang, A Combined Crossed Molecular Beams and ab initio Investigation on the Formation of Vinylsulfidoboron (C2H311B32S), Phys. Chem. Chem. Phys. 16, 17580-17587 (2014)
31.Ralf I. Kaiser, Beni B. Dangi, Tao Yang, Dorian S. N. Parker and Alexander M. Mebel, Reaction Dynamics of the 4-Methylphenyl Radical (p-Tolyl) with 1,2-Butadiene (1-Methylallene): Are Methyl Groups Purely Spectators?J. Phys. Chem. A118, 6181-6190 (2014)
32.Beni B. Dangi, Tao Yang, Ralf I. Kaiser and Alexander M. Mebel, Reaction Dynamics of the 4-Methylphenyl Radical (C6H4CH3; p-tolyl) with Isoprene (C5H8) - Formation of Dimethyldihydronaphthalenes, Phys. Chem. Chem. Phys.16, 16805-16814 (2014)
33.Dorian S. N. Parker, Tao Yang, Ralf I. Kaiser, Alexander Landera and Alexander M. Mebel, On the Formation of Ethynylbiphenyl (C14D5H5; C6D5C6H4CCH) Isomers in the Reaction of D5-phenyl Radicals (C6D5; X2A1) with Phenylacetylene (C6H5C2H; X1A1) under Single Collision, Chem. Phys. Lett.595-596, 230-236 (2014)
34.Beni B. Dangi, Dorian S. N. Parker, Tao Yang, Ralf I. Kaiser and Alexander M. Mebel, Gas-Phase Synthesis of the Benzyl Radical (C6H5CH2), Angew. Chem. Int. Ed.53, 4608-4613 (2014)
35.Tao Yang, James Coker, John Moore-Furneax and Neil E. Shafer-Ray, Addendum to “Possibility of 0-g-factor Paramagnetic Molecules for Measurement of the Electron’s Electric Dipole Moment”, Phys. Rev. A87, 014101(2013)
36.Tao Yang, James Coker, John Moore-Furneax and Neil E. Shafer-Ray, Designs of Biased Stark Guides for Polar Molecules, Phys. Rev. A85, 063403 (2012)
37.Richard J. Mawhorter, Benjamin S. Murphy, Alexander L. Baum, Trevor J. Sears, Tao Yang, Priyanka M. Rupasinghe, Christopher P. McRaven, Neil E. Shafer-Ray, Lukas D. Alphei and Jens-Uwe Grabow, Characterization of the Ground X1State of 204Pb19F, 206Pb19F, 207Pb19F, and 208Pb19F, Phys. Rev. A84, 022508 (2011)
38.James Coker, Haoquan Fan, Christopher P. McRaven, Priyanka M. Rupasinghe, Tao Yang, Neil E. Shafer-Ray and John E. Furneaux, Cavity Dispersion Tuning Spectroscopy of Tellurium near 444.4 nm, J. Opt. Soc. Am. B28, 2934-2939 (2011)
39.Lukas D. Alphei, Jens-Uwe Grabow, A. N. Petrov, Richard Mawhorter, Benjamin Murphy, Alexander Baum, Trevor J. Sears, Tao Yang, Priyanka M. Rupasinghe, Christopher P. McRaven and Neil E. Shafer-RayPrecision Spectroscopy of the 207Pb19F Molecule: Implications for Measurement of P-odd and T-odd Effects, Phys. Rev. A83, 040501(R) (2011)
40.Poopalasingam Sivakumara, Christopher P. McRaven, Priyanka M. Rupasinghe, Tao Yang, Neil E. Shafer-Ray, Trevor J. Sears and Gregory E. Hall, Pseudo-continuous Resonance Enhanced Multiphoton Ionisation: Application to the Determination of the Hyperfine Constants of 208Pb19F, Mol. Phys.108, 927-935 (2010)


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