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丁林杰博士
2024-07-28 10:28     (浏览量:)

丁林杰,男,博士,副教授,硕士生导师。2011年6月毕业于华中科技大学凝聚态物理专业,获理学博士学位。主要从事低维量子体系、有机磁及有机多铁的量子磁性、相变(磁相变、铁电相变、量子相变、拓扑相变),临界标度、磁(电)热效应及磁电耦合机制研究。主持、承担国家自然科学基金、省部级项目等10余项,在《Appl. Phys. Lett.》《J. Mater. Chem.》《J. Appl. Phys.》等国际期刊上发表SCI论文近50篇,其中第一、通讯作者近30篇,部分研究工作得到诺贝尔物理学奖得主Albert Fert教授(巨磁电阻GMR效应)在[Reviews of Modern Physics, 96, 015005 (2024); IF=44.1]上正面评述和引用,受邀为Nature Communications(IF=16.6)等国际重要期刊审稿人。主持完成教育部产学合作协同育人项目1项,受聘为教育部本科毕业论文抽检评审专家,2022年获评为重庆市万州区第五批“平湖英才”,获湖北省自然科学优秀论文一等奖1项。

Selected Publications:

[1] L. J. Ding*, Y. L. Sun, Y. Zhong, Characterization of gapless topological quantum phase transition via magnetocaloric effect, Results in Physics, 59, 107572 (2024).

[2] L. J. Ding*, Y. Zhong, Half-valley semimetal and largest inverse topological caloric effect at topological quantum criticality in the chiral-symmetric AIII class, Applied Physics Letters, 123, 243104 (2023).

[3] Y. Zhong, L. J. Ding*, Ferrimagnetic quantum phase transitions and Weyl-Kondo semimetal in a dimerized organic polymer, Results in Physics, 56, 107254 (2024).

[4] L. J. Ding* and Y. X. Xiang, Thermodynamic signature of topological quantum phase transition in a two-leg Kitaev ladder, Physica A, 609, 128346 (2023) .

[5] L. J. Ding*, L. Xiang and Y. Zhong, Thermodynamics and correlations featured quantum criticality of transverse-field Ising model with off-diagonal exchange interactions, Physica A, 597, 127293 (2022).

[6] L. J. Ding*, Y. X. Xiang and Y. Zhong, Unusual thermodynamic signature of topological quantum criticality in two coupled Su-Schrieffer-Heeger chains, Results in Physics, 42, 106018 (2022).

[7] L. J. Ding* and Y. Zhong, A theoretical strategy for pressure-driven ferroelectric transition associated with critical behavior and magnetoelectric coupling in organic multiferroics, Physical Chemistry Chemical Physics, 22, 19120 (2020).

[8] Linjie Ding* and Yuan Zhong, “A theoretical insight into an isentropic strategy for enhancing magnetoelectric coupling of organic multiferroics”, Physical Chemistry Chemical Physics, 20, 20228-20234 (2018).

[9] Linjie Ding*, Yuan Zhong, Shuaiwei Fan and Liya Zhu, “The magnetocaloric effect with critical behavior of a periodic Anderson-like organic polymer”, Physical Chemistry Chemical Physics, 18, 510-518 (2016).

[10] Linjie Ding, Kailun Yao* and Huahua Fu, “Spin-lattice coupling driven ferroelectric transition in one-dimensional organic quantum magnets”, Journal of Materials Chemistry, 21, 449-455 (2011).

[11] Linjie Ding, Kailun Yao* and Huahua Fu, “Field-controlled magnetic order with insulator-metal transitions in a periodic Anderson-like organic polymer”, Physical Chemistry Chemical Physics, 13, 328-336 (2011).

[12] Linjie Ding, Kailun Yao* and Huahua Fu, “Field-controlled Luttinger liquid and possible crossover into spin liquid in strong-rail ladder systems”, ChemPhysChem, 11, 3291-3298 (2010).

[13] Linjie Ding, Kailun Yao* and Huahua Fu, “Spin-Peierls transition in low-dimensional quantum spin systems: a Green's function approach”, Physical Chemistry Chemical Physics, 11, 11415-11423 (2009).

[14] L. J. Ding* and Y. Zhong, Magnetic field switching of Weyl semimetal associated with quantum criticality in one-dimensional extended Su-Schrieffer-Heeger chain, Journal of Magnetism and Magnetic Materials, 563, 169948 (2022) (SCI, 3区).

[15] L. J. Ding*, A quantum correlation test of quantum criticality in transverse-field Ising chain with Dzyaloshinskii-Moriya interaction, Journal of Magnetism and Magnetic Materials, 521, 167519 (2021).

[16] Linjie Ding*, Thermal Drude weight signature of gapless quantum criticality: From interacting Kitaev topological superconductor to antiferromagnetic

transverse-fifield Ising chain, Journal of Magnetism and Magnetic Materials, 497, 166076 (2020).

[17] Linjie Ding* and Yuan Zhong, “Quantum critical scaling for field-induced quantum phase transition in a periodic Anderson-like model polymer chain”, Journal of Magnetism and Magnetic Materials, 434, 105-111 (2017).

[18] Linjie Ding*, “Critical scaling analysis for displacive-type organic ferroelectrics around ferroelectric transition”, Physica A, 471, 818-824 (2017).

[19] Linjie Ding*, Yuan Zhong, Shuaiwei Fan and Liya Zhu, “Enhanced electrocaloric effect in displacive-type organic ferroelectrics”, Journal of Applied Physics, 118, 054105 (2015).

[20] Linjie Ding*, Shuaiwei Fan and Zhonglong Wang, “Ferromagnetism and metal-half-metal-insulator transitionsin a frustrated periodic Anderson- like organic polymer”, Journal of Magnetism and Magnetic Materials, 378, 291-297 (2015).

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