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Oscillation of Dzyaloshinskii–Moriya interaction driven by weak electric fields
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作者 陈润泽 曹安妮 +3 位作者 王馨苒 柳洋 杨洪新 赵巍胜 《Chinese Physics B》 SCIE EI CAS CSCD 2024年第2期487-491,共5页
Dzyaloshinskii–Moriya interaction(DMI) is under extensive investigation considering its crucial status in chiral magnetic orders, such as Néel-type domain wall(DW) and skyrmions. It has been reported that the in... Dzyaloshinskii–Moriya interaction(DMI) is under extensive investigation considering its crucial status in chiral magnetic orders, such as Néel-type domain wall(DW) and skyrmions. It has been reported that the interfacial DMI originating from Rashba spin–orbit coupling(SOC) can be linearly tuned with strong external electric fields. In this work, we experimentally demonstrate that the strength of DMI exhibits rapid fluctuations, ranging from 10% to 30% of its original value, as a function of applied electric fields in Pt/Co/MgO heterostructures within the small field regime(< 10-2V/nm). Brillouin light scattering(BLS) experiments have been performed to measure DMI, and first-principles calculations show agreement with this observation, which can be explained by the variation in orbital hybridization at the Co/MgO interface in response to the weak electric fields. Our results on voltage control of DMI(VCDMI) suggest that research related to the voltage control of magnetic anisotropy for spin–orbit torque or the motion control of skyrmions might also have to consider the role of the external electric field on DMI as small voltages are generally used for the magnetoresistance detection. 展开更多
关键词 Dzyaloshinskii-Moriya interaction weak electric field control effect Rashba spin-orbit coupling interfacial orbital hybridization
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Biomimetic Sensors:Active Electrolocation of Weakly Electric Fish as a Model for Active Sensing in Technical Systems 被引量:1
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作者 Gerhard von der Emde 《Journal of Bionic Engineering》 SCIE EI CSCD 2007年第2期85-90,共6页
Instead of vision, many nocturnal animals use alternative senses for navigation and object detection in their dark environment. For this purpose, weakly electric mormyrid fish employ active electrolocation, during whi... Instead of vision, many nocturnal animals use alternative senses for navigation and object detection in their dark environment. For this purpose, weakly electric mormyrid fish employ active electrolocation, during which they discharge a specialized electric organ in their tail which discharges electrical pulses. Each discharge builds up an electrical field around the fish, which is sensed by cutaneous electroreceptor organs that are distributed over most of the body surface of the fish. Nearby objects distort this electrical field and cause a local alteration in current flow in those electroreceptors that are closest to the object. By constandy monitoring responses of its electroreceptor organs, a fish can detect, localize, and identify environmental objects. Inspired by the remarkable capabilities of weakly electric fish in detecting and recognizing objects, we designed technical sensor systems that can solve similar problems of remote object sensing. We applied the principles of active electrolocation to technical systems by building devices that produce electrical current pulses in a conducting medium (water or ionized gases) and simultaneously sense local current density. Depending on the specific task a sensor was designed for devices could (i) detect an object, (ii) localize it in space, (iii) determine its distance, and (iv) measure properties such as material properties, thickness, or material faults. Our systems proved to be relatively insensitive to environmental disturbances such as heat, pressure, or turbidity. They have a wide range of applications including material identification, quality control, non-contact distance measurements, medical applications and many more. Despite their astonishing capacities, our sensors still lag far behind what electric fish are able to achieve during active electrolocation. The understanding of the neural principles governing electric fish sensory physiology and the corresponding optimization of our sensors to solve certain technical tasks therefore remain ongoing goals of our research. 展开更多
关键词 BIOMIMETIC weakly electric fish sensory system ELECTROLOCATION SENSOR
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Self-sustained firing activities of the cortical network with plastic rules in weak AC electrical fields
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作者 秦迎梅 王江 +3 位作者 门聪 赵佳 魏熙乐 邓斌 《Chinese Physics B》 SCIE EI CAS CSCD 2012年第7期604-610,共7页
Both external and endogenous electrical fields widely exist in the environment of cortical neurons. The effects of a weak alternating current (AC) field on a neural network model with synaptic plasticity are studied... Both external and endogenous electrical fields widely exist in the environment of cortical neurons. The effects of a weak alternating current (AC) field on a neural network model with synaptic plasticity are studied. It is found that self-sustained rhythmic firing patterns, which are closely correlated with the cognitive functions, are significantly modified due to the self-organizing of the network in the weak AC field. The activities of the neural networks are affected by the synaptic connection strength, the exterrtal stimuli, and so on. In the presence of learning rules, the synaptic connections can be modulated by the external stimuli, which will further enhance the sensitivity of the network to the external signal. The properties of the external AC stimuli can serve as control parameters in modulating the evolution of the neural network. 展开更多
关键词 spike-timing-dependent plasticity (STDP) weak electrical field rhythmic activity
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Action potential-simulated weak electric fields can directly initiate myelination
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作者 Lei Liu Shifu Zhao Haiming Wang 《Neural Regeneration Research》 SCIE CAS CSCD 2008年第12期1328-1331,共4页
BACKGROUND: Myelination is a process whereby glial cells identify, adhere, wrap and enclose axons to form a spiral myelin sheath. OBJECTIVE: To investigate the effects of action potential-simulated weak electric fie... BACKGROUND: Myelination is a process whereby glial cells identify, adhere, wrap and enclose axons to form a spiral myelin sheath. OBJECTIVE: To investigate the effects of action potential-simulated weak electric fields on myelination in the central nervous system. DESIGN AND SETTING: This single-sample observation study was performed at the 324 Hospital of Chinese PLA. MATERIALS: Two 5 μm carbon fibers were provided by the Institute of Neuroscience, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences. One Sprague Dawley rat, aged 1 day, was used. METHODS: Cerebral cortex was harvested from the rat to prepare a suspension [(1 2)× 10^5/mL] containing neurons and glial cells. To simulate the axon, carbon fibers were placed at the bottom of the neuron-glial cell coculture dish, and were electrified with a single phase square wave current, 1×10^-2, 1×10^-3, 1×10^-4, and 1×10^-5 seconds, 1 Hz, 40 mV, and 10 μA, 30 minutes each, once a day for 10 consecutive days to simulate weak negative electric fields during action potential conduction. MAIN OUTCOME MEASURES: Glial cell growth and wrapping of carbon fibers were observed by phase contrast microscopy and immunohistochemistry. RESULTS: On culture day 7, cell groups were found to adhere to negative carbon fibers in the 1 × 10^-3 seconds square wave group. Cell membrane-like substances grew out of cell groups, wrapped the carbon fibers, and stretched to the ends of carbon fibers. Only some small and round cells close to negative carbon fibers were found on culture day 12. In the 1 × 10^-4 and 1 × 10^-3 seconds square wave groups, the negative carbon fibers were wrapped by oligodendrocytes or their progenitor cells. CONCLUSION: The local negative electric field which is generated by action potentials at 1×(10^-4-10^-3) seconds, 40 mV can directly initiate and participate in myelination in the central nervous system. 展开更多
关键词 myelin sheath OLIGODENDROCYTE weak electric field action potential carbon fiber
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Weight Gain from Static Charging
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作者 Keith W. Koenig 《Open Journal of Applied Sciences》 CAS 2023年第1期89-93,共5页
This paper announces the discovery that a statically charged object gains weight, equal to approximately 7 × 10<sup>-11</sup> grams per excess electron when the object is negatively charged and 5 ... This paper announces the discovery that a statically charged object gains weight, equal to approximately 7 × 10<sup>-11</sup> grams per excess electron when the object is negatively charged and 5 × 10<sup>-11</sup> grams per excess proton when positively charged. The weight gain is not instantaneous but increases to a maximum and then decays with the excess charge. 展开更多
关键词 weak Electric Fields GRAVITY Mass CHARGE Unification DISCOVERY
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Damages on the lubricated surfaces in bearings under the influence of weak electrical currents 被引量:6
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作者 XIE GuoXin LUO JianBin +2 位作者 GUO Dan LIU ShuHai LI Gang 《Science China(Technological Sciences)》 SCIE EI CAS 2013年第12期2979-2987,共9页
A special bearing tester was constructed to investigate the damage behavior on the lubricated surfaces in bearings with the passage of weak electrical currents as low as^1 mA.The results showed that when polar glyceri... A special bearing tester was constructed to investigate the damage behavior on the lubricated surfaces in bearings with the passage of weak electrical currents as low as^1 mA.The results showed that when polar glycerine was used as the lubricant,many narrow and deep pits formed on the lubricated surfaces.In contrast,when the experimental conditions under the lubrication of the nonpolar paraffin oil were close to those under the lubrication of polar glycerine oil,damages on the lubricated surfaces were unobvious.Emergence of microbubbles in polar lubricants with the passage of electrical currents was proposed to be responsible for the observed damages on the lubricated surfaces. 展开更多
关键词 electro-damage bearings weak electrical current MICROBUBBLES
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Bifurcation phenomena and control for magnetohydrodynamic flows in a smooth expanded channel
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作者 G.C.Layek Mani Shankar Mandal H.A.Khalaf 《Chinese Physics B》 SCIE EI CAS CSCD 2014年第11期374-383,共10页
This work reports the effects of magnetic field on an electrically conducting fluid with low electrical conductivity flowing in a smooth expanded channel. The governing nonlinear magnetohydrodynamic (MHD) equations ... This work reports the effects of magnetic field on an electrically conducting fluid with low electrical conductivity flowing in a smooth expanded channel. The governing nonlinear magnetohydrodynamic (MHD) equations in induction- free situations are derived in the framework of MHD approximations and solved numerically using the finite-difference technique. The critical values of Reynolds number (based on upstream mean velocity and channel height) for symmetry breaking bifurcation for a sudden expansion channel (1:4) is about 36, whereas the value in the case of the smooth expansion geometry used in this work is obtained as 298, approximately (non-magnetic case). The flow of an electrically conducting fluid in the presence of an externally applied constant magnetic field perpendicular to the plane of the flow is reduced significantly depending on the magnetic parameter (M). It is expansion (1:4) is about 475 for the magnetic parameter M found that the critical value of Reynolds number for smooth = 2. The separating regions developed behind the smooth symmetric expansion are decreased in length for increasing values of the magnetic parameter. The bifurcation diagram is shown for a symmetric smoothly expanding channel. It is noted that the critical values of Reynolds number increase with increasing magnetic field strength. 展开更多
关键词 weakly electrically conducting fluid flow bifurcation asymmetric flow smooth expansion
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Jamming Avoidance Response Inspired by Wave-type WeaMy Electric Fish
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作者 Jaehyun Soh DaeEun Kim 《Journal of Bionic Engineering》 SCIE EI CSCD 2018年第6期982-991,共10页
Weakly electric fish use the electric field to detect objects in the neighborhood or communicate with conspecifics. They generate electric field with their electric organ and the electroreceptors sense the distortion ... Weakly electric fish use the electric field to detect objects in the neighborhood or communicate with conspecifics. They generate electric field with their electric organ and the electroreceptors sense the distortion of electric field caused by nearby objects. They use a modulated frequency signal of the Electric Organ Discharge (EOD), and it can be disturbed by similar frequency signals that neighboring weakly electric fish emit. They have a particular behavior response to change their EOD frequencies to avoid signal jamming. It is called jamming avoidance response. Inspired by the behavior of wave-type weakly electric fish, we propose an engineering perspective of jamming avoidance response model with the amplitude-phase modulation graph. The time course of the amplitude-phase graph of the EOD signal provides a cue to detect the jamming signal. We argue that the temporal integration can determine the shift direction of the EOD as well as the amount of the frequency shift to be moved frequency for the jamming avoidance response. Alternatively, as a fast adapting measure, the cross product of point vectors in the amplitude-phase graph allows early decision for jamming avoidance. We demonstrate the methods with simulations and the real experiments in the underwater environment. 展开更多
关键词 weakly electric fish electric organ discharge jamming avoidance response electrosensory system bioinspiration
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