Bose-Einstein condensation of magnons pumped by the bulk spin Seebeck effect

Yaroslav Tserkovnyak; Scott A. Bender; Rembert A. Duine; Benedetta Flebus

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Bose-Einstein condensation of magnons pumped by the bulk spin Seebeck effect

机译：体自旋塞贝克效应泵浦的强子的玻色-爱因斯坦凝聚

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We propose inducing Bose-Einstein condensation of magnons in a magnetic insulator by a heat flow oriented toward its boundary. At a critical heat flux, the oversaturated thermal gas of magnons accumulated at the boundary precipitates the condensate, which then grows gradually as the thermal bias is dialed up further. The thermal magnons thus pumped by the magnonic bulk (spin) Seebeck effect must generally overcome both the local Gilbert damping associated with the coherent magnetic dynamics as well as the radiative spin-wave losses toward the magnetic bulk, in order to achieve the threshold of condensation. We quantitatively estimate the requisite bias in the case of the ferrimagnetic yttrium iron garnet, discuss different physical regimes of condensation, and contrast it with the competing (so-called Doppler-shift) bulk instability.

机译：我们提出通过朝向其边界的热流在磁绝缘子中引起磁振子的玻色-爱因斯坦凝聚。在临界热通量下，聚集在边界的磁振子的过饱和热气使冷凝物沉淀，然后随着热偏压的进一步增加，冷凝物逐渐增长。如此，由大体积块（自旋）塞贝克效应泵送的热磁振子通常必须克服与相干磁动力学相关的局部吉尔伯特阻尼以及向着磁性块的辐射自旋波损耗，以达到凝结的阈值。我们定量估计亚铁钇铁石榴石的必要偏差，讨论不同的物理凝结形式，并将其与竞争性（所谓的多普勒频移）体不稳定性进行对比。

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《Physical review. B, Condensed Matter And Materals Physics》 |2016年第10期|100402.1-100402.4|共4页
作者
Yaroslav Tserkovnyak; Scott A. Bender; Rembert A. Duine; Benedetta Flebus;
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Department of Physics and Astronomy, University of California, Los Angeles, California 90095, USA;

Department of Physics and Astronomy, University of California, Los Angeles, California 90095, USA;

Institute for Theoretical Physics and Center for Extreme Matter and Emergent Phenomena, Utrecht University, Leuvenlaan 4, 3584 CE Utrecht, The Netherlands;

Institute for Theoretical Physics and Center for Extreme Matter and Emergent Phenomena, Utrecht University, Leuvenlaan 4, 3584 CE Utrecht, The Netherlands;

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1. Bose-Einstein condensation of magnons pumped by the bulk spin Seebeck effect [J] . Tserkovnyak Yaroslav, Bender Scott A., Duine Rembert A., Physical review, B . 2016,第10期

机译：体自旋塞贝克效应泵浦的强子的玻色-爱因斯坦凝聚
2. Spin Seebeck effect in Cu_2OSeO_3: Test of bulk magnon spin current theory [J] . A. Akopyan, N. Prasai, B. A. Trump, Physical review . 2020,第10期

机译：Cu_2OSeO_3中的自旋塞贝克效应：体磁振子自旋电流理论的检验
3. Spin Seebeck effect in Cu2OSeO3 : Test of bulk magnon spin current theory [J] . Physical review, B . 2020,第10期

机译：Cu2oseO3中的旋转塞贝克效应：散装Magnon旋转电流理论的测试
4. Magnon Bose-Einstein condensation at inhomogeneous conditions [C] . Yury Bunkov, Murat Tagirov International Youth Scientific School on Actual Problems of Magnetic Resonance and its Applications Conference . 2013

机译：Magnon Bose-Einstein在不均匀条件下的凝结
5. All-optical spinor Bose-Einstein condensation and the spinor dynamics-driven atom laser. [D] . Lundblad, Nathan Eric. 2006

机译：全光自旋Bose-Einstein凝聚和自旋动力学驱动的原子激光器。
6. Experimental proof of the reciprocal relation between spin Peltier and spin Seebeck effects in a bulk YIG/Pt bilayer [O] . Alessandro Sola, Vittorio Basso, Michaela Kuepferling, -1

机译：YIG / Pt双层中自旋珀耳帖效应和自旋塞贝克效应之间的相互关系的实验证明
7. Bose-Einstein Condensation of Magnons Pumped by the Bulk Spin Seebeck Effect [O] . Tserkovnyak, Yaroslav, Bender, Scott A., Duine, Rembert A., 2015

机译：由Bulk spin seebeck泵浦的玻色子的玻色 - 爱因斯坦凝聚影响

Bose-Einstein condensation of magnons pumped by the bulk spin Seebeck effect

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