Your search keyword '"Huang, Hong-Yue"' showing total 7 results

1. Levitation by a dipole electric field

Author

Tsai, Ping-Rui, Huang, Hong-Yue, Hsieh, Jih-Kang, Cheng, Yu-Ting, Tsai, Ying-Pin, Lai, Cheng-Wei, Kao, Yu-Hsuan, Chen, Wen-Chi, Hsiao, Fu-Li, Lin, Po-Heng, and Hong, Tzay-Ming

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

The phenomenon of floating can be fascinating in any field, with its presence seen in art, films, and scientific research. This phenomenon is a captivating and pertinent subject with practical applications, such as Penning traps for antimatter confinement and Ion traps as essential architectures for quantum computing models. In our project, we reproduced the 1893 water bridge experiment using glycerol and first observed that lump-like macroscopic dipole moments can undergo near-periodic oscillations that exhibit floating effects and do not need classical bridge form. By combining experimental analysis, neural networks, investigation of Kelvin force generated by the Finite element method, and exploration of discharging, we gain insights into the mechanisms of motion. Our discovery has overturned the previous impression of a bridge floating in the water, leading to a deeper understanding of the new trap mechanism under strong electric fields with a single pair of electrodes., Comment: 5 pages, 5 figures

Published

2023

2. Formation and mechanics of fire ant rafts as an active self-healing membrane

Author

Chen, Chung-Hao, Hsieh, Ting-Heng, Huang, Hong-Yue, Cheng, Yu-Chuan, and Hong, Tzay-Ming

Subjects

Condensed Matter - Soft Condensed Matter, Physics - Biological Physics

Abstract

The unique ability of fire ants to form a raft to survive flooding rain has enchanted biologists as well as researchers in other disciplines. It has been established during the last decade that an aggregation of fire ants exhibits viscoelasticity with respect to external compression and shearing among numerous unusual mechanical properties. In addition to clarifying that the Cheerios effect is neither sufficient nor essential for the ant raft, we perform the force-displacement and creep experiments on the ant raft and concentrate on unearthing properties that derive from the unique combination of self-healing and activeness of its constituent. Varying pull speed results in distinct mechanical responses and fracture patterns, characteristic of ductile and brittle material. By image processing, we count the number of ants that actively participate in the stress-strain relation and determine their orientation to map out the force chain. The latter information reveals that the pull force expedites the alignment of fire ants, in analogy to the effect of an electric field on liquid crystal polymers. In addition, the raft can be tailored not to transversely deform in response to the axial strain. Without resorting to specific geometry structures, this property of zero Poisson's ratio is enabled by the active recruitment of ants from the top to bottom layer to keep the raft from disintegrating. Furthermore, effective Young's modulus can also be customized and is proportion to either the raft length or its inverse, depending on whether the raft is in the elastic or plastic region., Comment: 7 pages, 7 figures

Published

2023

3. In-depth analysis of music structure as a text network

Author

Tsai, Ping-Rui, Chou, Yen-Ting, Wang, Nathan-Christopher, Chen, Hui-Ling, Huang, Hong-Yue, Luo, Zih-Jia, and Hong, Tzay-Ming

Subjects

Computer Science - Sound, Computer Science - Artificial Intelligence, Computer Science - Computation and Language, Electrical Engineering and Systems Science - Audio and Speech Processing

Abstract

Music, enchanting and poetic, permeates every corner of human civilization. Although music is not unfamiliar to people, our understanding of its essence remains limited, and there is still no universally accepted scientific description. This is primarily due to music being regarded as a product of both reason and emotion, making it difficult to define. In this article, we focus on the fundamental elements of music and construct an evolutionary network from the perspective of music as a natural language, aligning with the statistical characteristics of texts. Through this approach, we aim to comprehend the structural differences in music across different periods, enabling a more scientific exploration of music. Relying on the advantages of structuralism, we can concentrate on the relationships and order between the physical elements of music, rather than getting entangled in the blurred boundaries of science and philosophy. The scientific framework we present not only conforms to past conclusions in music, but also serves as a bridge that connects music to natural language processing and knowledge graphs., Comment: 7 pages, 8 figures

Published

2023

4. Evidence for spontaneous arrangement of two-way flow in water bridge via particle image velocimetry

Author

Tsai, Ping-Rui, Huang, Hong-Yue, Lai, Cheng-Wei, Cheng, Yu-Ting, Huang, Chih-Yung, Tsai, Cheng-En, Lee, Yi-Chun, Hao, Hong, and Hong, Tzay-Ming

Subjects

Condensed Matter - Soft Condensed Matter, Physics - Fluid Dynamics

Abstract

By revisiting the century-old problem of water bridge, we demonstrate that it is in fact dynamic and comprises of two coaxial water currents that carry different charges and flow in opposite directions. This spontaneous separation is triggered by the different stages to construct the water bridge. Initially, a flow is facilitated by the cone jet that is powered by H+ and flows out of the positive-electrode beaker. An opposing cone-jet from negative beaker is established later and forced to take the outer route. This spontaneous arrangement of two-way flow is revealed by using fluorescein and carbon powder as tracers, and the Particle Image Velocimetry, These two opposing flows are found to carry non-equal flux that results in a net transport of water to the negative beaker. We manage to estimate the flow speed and cross-sectional area of these co-axial flows as a function of time and applied voltage. Note that the water on the outer layer functions as a millimeter tube that confines and interacts strongly with the flow inside. This provides a first natural and yet counter example to the recently reported near-frictionless flow in an equally miniatureized soft wall made from ferrofluid., Comment: 6 pages, 5 figures

Published

2020

5. Formation and mechanics of fire ant rafts as an active self-healing membrane

Author

Chen, Chung-Hao, primary, Hsieh, Ting-Heng, additional, Huang, Hong-Yue, additional, Cheng, Yu-Chuan, additional, and Hong, Tzay-Ming, additional

Published

2024

6. Levitation by a dipole electric field

Author

Hong, Tzay-Ming, primary, Tsai, Ping-Rui, additional, Huang, Hong-Yue, additional, Hsieh, Jih-Kang, additional, Cheng, Yu-Ting, additional, Lai, Cheng-Wei, additional, Kao, Yu-Hsuan, additional, and Lin, Po-Heng, additional

Published

2023

7. In-depth analysis of music structure as a self-organized network

Author

Tsai, Ping-Rui, Chou, Yen-Ting, Wang, Nathan-Christopher, Chen, Hui-Ling, Huang, Hong-Yue, Luo, Zih-Jia, and Hong, Tzay-Ming

Subjects

FOS: Computer and information sciences, Sound (cs.SD), Artificial Intelligence (cs.AI), Computer Science - Computation and Language, Audio and Speech Processing (eess.AS), Computer Science - Artificial Intelligence, FOS: Electrical engineering, electronic engineering, information engineering, Computation and Language (cs.CL), Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing

Abstract

Words in a natural language not only transmit information but also evolve with the development of civilization and human migration. The same is true for music. To understand the complex structure behind the music, we introduced an algorithm called the Essential Element Network (EEN) to encode the audio into text. The network is obtained by calculating the correlations between scales, time, and volume. Optimizing EEN to generate Zipfs law for the frequency and rank of the clustering coefficient enables us to generate and regard the semantic relationships as words. We map these encoded words into the scale-temporal space, which helps us organize systematically the syntax in the deep structure of music. Our algorithm provides precise descriptions of the complex network behind the music, as opposed to the black-box nature of other deep learning approaches. As a result, the experience and properties accumulated through these processes can offer not only a new approach to the applications of Natural Language Processing (NLP) but also an easier and more objective way to analyze the evolution and development of music., 5 pages

Published

2023