領域subject | 領域簡介說明(英文) | 領域簡介說明(中文) | 關鍵字說明(英文) | 關鍵字說明(中文) |
01 SL-表面與低維物理 Surface Science and Low-Dimensional Physics | The sub-committee solicits for original submissions in the field of condensed matter physics related to the atomic, molecular, lattice, spin, or electronic properties of the surfaces, nanostructures, or low-dimensional materials. Paper contributions including but not limited to (1) material growth, synthesis, and characteristics; (2) structural, electronic, optical, and magnetic properties; (3) phenomena at surface, interface, and hetero-structures; (4) high-resolution characterization at the atomic or nanoscale; (5) theory and simulation; (6) chemistry for energy, catalysis and sensing applications; (7) other novel functional 2D materials and related applications, are all encouraged. | 本領域徵求與表面、奈米結構或低維材料在凝態物理領域中研究原子、分子、晶格、自旋、或電子性質相關的原創論文。論文主題建議可包括但不侷限於(1)材料生長、合成與特性;(2)結構、電子、光和磁性特性;(3)表面, 介面和異質結構現象;(4)具高解析度的原子或奈米尺度檢測;(5)理論與模擬;(6)化學特性,如能源、催化與感測應用; (7)其他新穎功能性二維材料與元件及其相關應用等,均歡迎投稿至本領域。 | surface and interface physics, nanostructures, two-dimensional materials, heterostructures, thin films, other low-dimensional materials,growth of low-dimensional materials, physical and chemical properties of low-dimensional materials, atomic and nanoscale characterization | 表面與介面物理、奈米結構、二維材料、異質結構、薄膜、其他低維材料、低維材料成長、低維材料物化特性、原子及奈米尺度檢測 |
02 SOE-半導體/光電 Semiconductors / Optoelectronics | The sub-committee solicits original submissions in the field of semiconductor/optoelectronic-related physics. Relevant topics include but are not limited to (1) solid-state material growth and synthesis, and its electrical and optical characterizations; (2) semiconductor/optoelectronic-related devices physics, fabrication, and characterizations and performances; (3) physical properties of semiconductor/optoelectronic and its numerical simulation/modeling; (4) low dimensional semiconductor/optoelectronic systems such as quantum dots, nanowires, quantum wells, graphene, and 2D materials; (5) semiconductor/optoelectronic devices; (6) other novel functional semiconductor/optoelectronic with new applications, are all encouraged. | 本領域徵求與半導體與光電物理相關之原創論文,論文主題建議可包括但不侷限於(1)半導體/光電材料生長、合成與其物理特性分析; (2)半導體/光電元件物理、製程與輸出特性; (3)半導體/光電物理基本性質和數值模擬; (4)低維度半導體/光電奈米結構,如量子點、奈米線、量子井、石墨烯和其他二維材料; (5) 半導體/光電元件;(6)新型功能性半導體、超穎材料與元件及其相關應用等,均歡迎投稿至本領域。 | homogeneous and heterogeneous materials, material growth and synthesis, semiconductor/optoelectronic devices and physics, system development of semiconductor/optoelectronic characterizations, numerical simulation/modeling, low-dimensional semiconductors, nanostructured fabrications and characterizations, metamaterials, semiconductor qubits, metamaterials | 均質與異質材料、晶體生長與合成、半導體與光電元件、半導體與光電特性量測系統、物理數值模擬與分析、低維度半導體、奈米結構製作與特性、新型多功能半導體材料與元件、超穎材料與元件、半導體量子位元 |
03 MSP-磁性與自旋物理 Magnetism / Spin Physics | The sub-committee solicits original submissions of the latest advances in the field of magnetism, spintronics, and quantum spin physics. Relevant topics include but are not limited to (1) emergent magnetic materials, (2) magnetic topological materials, (3) spintronics/spin-orbit/Hall effects (4) spin transport by electrons and magnons, (5) spin dynamics, (6) biomagnetism, (7) magnetic surface and interfaces, and (8) van der Waals magnets. | 本領域徵求磁性、自旋電子學、和量子自旋物理領域最新進展的原創論文,論文主題建議可包括但不侷限於 (1) 新穎磁性材料;(2) 磁性拓撲材料;(3) 自旋電子學/自旋軌道/霍爾效應;(4) 自旋電子和磁振子的傳輸;(5)自旋動力學;(6) 生物磁學;(7) 磁性表面和界面,以及 (8) 二維凡得瓦自旋系統等,均歡迎投稿至本領域。 | magnetic materials, thin films and heterostructures, magnetic nanostructure, magnetic topological materials, spin-orbit interaction, spin-orbit torque, spin-transfer torque, spin current, spin dynamic, spin pumping, spintronics, magnon, spin Seebeck effect, magnetoresistance, MRAM, Skyrmions, magnetic vdW materials | 磁性材料,薄膜和異質結構、磁奈米結構、磁性拓撲材料、自旋軌道交互作用、自旋軌道力矩,自旋轉移力矩,自旋電流、自旋動力學,自旋泵浦,自旋電子學、磁振子、自旋塞貝克效應、磁阻、磁性隨機存取記憶體、斯格明子、磁性薄膜、磁性凡得瓦材料 |
04 SC-超導/強關聯/量子材料 Superconductivity / Strongly Correlated Systems/Quantum Materials | Topics including but not limited to 1. Unconventional superconductivity 2. Quantum phase transition 3. Exotic quantum state of matter (e.g., charge density waves, spin liquid, strange metals, non-Fermi liquid, multiferroics, 1D Luttinger liquid ...) 4. Novel quantum material (topological insulator, topological semimetal, topological superconductor, Majorana fermion, .., ) | 本領域徵求論文涵蓋主題(不受限於)為: 1. 非傳統超導體物理 2. 量子相變 3. 奇特之量子態(如: 電荷密度波,自旋液體,奇異金屬,非費米液體,多鐵性物質,一維之Luttinger 液體,...) 4. 新穎量子材料(如:拓樸絕緣體,拓樸半金屬體,拓樸超導體,馬約拉納費米子,...) 。 | spin-orbit interaction, spin torque, spin current, spintronics, magnon, spin seebeck effect, magnetoresistance, MRAM, Skyrmions, magnetic thin film, magnetic nanostructure, magnetic vdW materials | 自旋軌道交互作用、自旋力矩、自旋電流、自旋電子學、磁振子、磁阻、磁性隨機存取記憶體、斯格明子、磁性薄膜、磁奈米結構、磁性凡得瓦材料 |
05 OP-光學 Optics and Photonics | The purpose of optics session is to bring together researchers and students to exchange ideas and present latest advancements in these fields. Relevant topics include but are not limited to (1) Raman spectrum, photoluminescence, electroluminescence, catholuminescence; (2) time-resolved spectroscopy, THz, nonlinear optics; (3) holography, microscopy, bioptics; (4) photonic crystal, metamaterial, plasmon, nanophotonics; (5) quantum optics, ultrafast optics; and (6) laser machining, sensing, communication, waveguide. | 主要讓從事光學相關研究的學者專家、學生能有一交換想法、心得及發表最新研究的平台。本領域徵求與光學及光電元件相關之原創論文,論文主題建議可包括但不侷限於 (1) 拉曼光譜、光致發光、電致發光, 陰極發光; (2) 時間解析光譜、兆赫波、非線性光學; (3) 全像、顯微影像、生物光學; (4) 光子晶體、超穎材料、電漿子、奈米光學; (5) 量子光學、超快光學; (6) 雷射加工、感測、通訊、波導等,均歡迎投稿至本領域。 | Raman spectroscopy, photoluminescence, electroluminescence, catholuminescence, time-resolved spectroscopy, THz, nonlinear optics, holography, microscopy, bioptics, photonic crystal, metamaterial, plasmon, nanophotonics, quantum optics, ultrafast optics, laser machining, sensing, communication, waveguide | 拉曼光譜、光致發光、電致發光, 陰極發光、時間解析光譜、兆赫波、非線性光學、全像、顯微影像、生物光學、光子晶體、超穎材料、電漿子、奈米光學、量子光學、超快光學、雷射加工、感測、通訊、波導 |
06 BPI-生物物理/生物影像技術 Biological Physics and Bio-Imaging | The sub-committee welcome original submissions in biological physics and bioimaging. The topics include the study of biological phenomena using physical approaches, investigating into the physical principles and mechanisms of living orgaisms, and development of physical techniques to probe biological systems. Part of the topics are overlapped with soft matter and statistical mechanics. The organizers may adjust the submission between two fields accordingly. | 本領域徵求與生物物理和生物影像技術相關的原創論文。論文主題包括用物理學的方法來研究生物現象、了解生物系統裡運用的物理機制,還有發展新的物理技術來研究生物系統。部分主題與軟物理重疊,會視兩邊論文情況做調整。 | biophysics, physical biology, medical physics, quantitative microscopy, super-resolution microscopy, single molecule microscopy, protein folding, biomolecular functional dynamcis, quantum biology, neural physics | 生物物理、物理生物、醫學物理、量化顯微術、超高解析度顯微術、單分子顯微術、蛋白質折疊、生物分子功能性動力學、量子生物學、神經物理、 |
07 SM-軟物質/統計力學 Soft Matter and Statistical Mechanics | The sub-committee solicits original submissions in soft matter, statistical mechanics, and granular materials. The topics include self-assembly, rheology, non-equilibrium, and driven/active matter. Part of the topics are overlapped with biological physics. The organizers may adjust the submission between two fields accordingly. | 本領域徵求在軟物質、統計力學和顆粒流的原創論文。論文主題包含自主裝系統、流變學、非平衡系統、驅動或主動物質。部分主題與生物物理重疊,會視兩邊論文情況做調整。 | soft matter, granular materials, self-assembly, non-equilibrium statistical mechanics, rheology, active matter, liquid-liquid phase separation | 軟物質、顆粒流物質、自主裝現象、非平衡統計力學、流變學、主動物質、液-液相分離 |
08 QI-量子資訊與量子計算 Quantum Information and Quantum Computing | The sub-committee solicits for original submissions in the field of quantum information science and quantum computation. Both theoretical and experimental works are welcomed. Paper contributions including but not limited to (1) Quantum cryptography (2) Quantum communication (3) Quantum computation (4) Quantum metrology and sensing (5) Quantum control (6) Hybrid quantum systems (7) Quantum thermodynamics (8) Quantum resource theories (9) Fundamental test of quantum mechanics. | 本領域徵求與量子資訊與粒子計算相關之原創論文,理論與實驗工作都歡迎投稿,論文主題建議可包括但不侷限於 (1) 量子密碼學 (2) 量子通訊 (3) 量子計算 (4) 量子計量學與感測 (5) 量子控制 (6) 混合量子系統 (7) 量子熱力學 (8) 量子資源理論 (9) 量子力學基礎驗證 。 | quantum key distribution, quantum teleportation, quantum entanglement, quantum network, quantum repeater, quantum memory, entangled photons, single photons, quantum computer, quantum gate, quantum interface, quantum thermodynamics, quantum metrology, quantum sensing, quantum control, quantum error correcting codes, fault-tolerant quantum computation, Bell inequality | 量子密鑰傳輸,量子遙傳,量子糾纏,量子網路,量子重複器,量子記憶體,糾纏光子,單光子,量子電腦,量子閘,量子介面,量子熱力學,量子計量學,量子感測,量子控制,量子糾錯碼,量子容錯計算,貝爾不等式。 |
09 PF-粒子與場 Particles and Fields | Division of Particle and Field (DPF) solicits for submissions on the subject of particles and fields. Paper contributions including but not limited to (1) Particle physics theory and phenomenology; (2) Collider experiments and beam-line based experiments; (3) Neutrino and low background experiments; (4) Experimental instruments and technology; (5) Future experiments and projects; (6) Quantum Field Theory; (7) Conformal Field Theory; (8) String Theory; (9) Gravity, are all encouraged. | 本學部徵求與粒子與場物理相關之論文。論文主題建議可包含但不侷限於(1)粒子物理理論與現象學;(2)對撞機實驗與粒子束實驗;(3)微中子與低背景實驗;(4)實驗儀器與技術;(5)新興實驗與研究計畫; (6)量子場論; (7)共型場論;(8)弦論; (9)重力,歡迎發表最新研究及交換心得。 | standard model, quark, lepton, neutrino, neutrino oscillation, electroweak interaction, quantum chromodynamics, hadronic physics, Higgs boson, Large Hadron Collider, dark matter, CP violation, supersymmetry, exotic physics, flavor physics, quantum field theory, string theory, gravity | 標準模型、夸克、輕子、微中子、微中子震盪、電弱作用、量子色動力學、強子物理、希格斯玻色子、大強子對撞機、暗物質、CP破壞、超對稱、奇異物理、風味物理,量子場論,弦論,重力 |
10-1 AG-天文/重力/宇宙學 Astrophysics,Gravity and Cosmology-天文物理 Astrophysics | The sub-committee solicits for original submissions in the field of astrophysics, gravity, and cosmology. Theoretical, observational, and instrumental works are all welcomed. Paper contributions including but not limited to (1) astrophysics; (2) planetary and space science; (3) solar physics; and (4) instrumentation | 本領域徵求與天文物理,重力,宇宙學相關之原創論文,並歡迎從事理論,觀測與儀器研究學者投稿,論文主題建議可包括但不侷限於 (1) 天文物理; (2) 行星與太空科學; (3) 太陽物理; (4) 儀器工程 | astrophysics, planetary and space science, solar physics, instrumentation | 天文物理、行星與太空科學、太陽物理、儀器工程 |
10-2 AG-天文/重力/宇宙學 Astrophysics,Gravity and Cosmology-重力 Gravity | The sub-committee solicits for original submissions in the field of astrophysics, gravity, and cosmology. Theoretical, observational, and instrumental works are all welcomed. Paper contributions including but not limited to (1) gravity theory; (2) gravitational wave; and (3) black hole | 本領域徵求與天文物理,重力,宇宙學相關之原創論文,並歡迎從事理論,觀測與儀器研究學者投稿,論文主題建議可包括但不侷限於 (1) 重力理論; (2) 重力波; (3) 黑洞 | gravity theory, gravitational wave, black hole | 重力理論、重力波、黑洞 |
10-3 AG-天文/重力/宇宙學 Astrophysics,Gravity and Cosmology-宇宙學 Cosmology | The sub-committee solicits for original submissions in the field of astrophysics, gravity, and cosmology. Theoretical, observational, and instrumental works are all welcomed. Paper contributions including but not limited to (1) early universe; (2) large scale structure; (3) dark matter; (4) dark energy; and (5) particle astrophysics | 本領域徵求與天文物理,重力,宇宙學相關之原創論文,並歡迎從事理論,觀測與儀器研究學者投稿,論文主題建議可包括但不侷限於 (1) 早期宇宙; (2) 大尺度結構; (3) 暗物質; (4) 暗能量; (4) 粒子天體物理 | early universe, large scale structure, dark matter, dark energy, particle astrophysics | 早期宇宙、大尺度結構、暗物質、暗能量、粒子天體物理 |
11 PP-電漿物理 Plasma Physics | The sub-committee solicits for original submissions in the field of plasma physics. Paper contributions including but not limited to (1) plasma experiments and applications; (2) plasma theory and simulation are all encouraged. | 本領域徵求與電漿物理相關之原創論文。論文主題建議可包含但不侷限於(1)電漿實驗及應用(2)電漿理論及模擬,歡迎發表最新研究及交換心得。 | laser plasma, space plasma, dusty plasma, low temperature plasma, plasma application, plasma diagnostics, plasma source and plasma heating system, plasma modeling and numerical simulation, plasma turbulence and transport | 雷射電漿、太空電漿、微粒電漿、低溫電漿、電漿應用、電漿量測、電漿源及電漿加熱系統、電漿模型及數值模擬、電漿湍流及傳輸現象 |
12 AI-加速器/儀器發展 Accelerator Physics/ Instrumentation Development | Instrumentation development not only highly correlated with a country’s science and technology advances, it is also making great impact on the economic development and industrial progress. In particular, the development process of instruments often complements each other with the needs of many emerging topics. Since 2022, the Physical Society of Taiwan is organizing a joint session to combine the accelerator physics and instrumentation development, to promote both the accelerator related researches and the science and technology for instrumentation development. In 2023, except the accelerator related researches and the science and technology for instrumentation development, we will organize a novel filed related special experimental techniques, not only limited with the development of instruments. We kindly invite researchers with special experimental techniques in various fields to share your experience, furtherly prompt the cooperation of research work among scholars in different fields. This sub-committee welcomes original submissions in the fields related to the accelerator researches, applications of accelerator, synchrotron radiation, instrumentation development, and special experimental techniques for any research fields. This session provides a platform to share your experience and an opportunity to communicate with a broad spectrum of scientists who will definitely benefit from your contribution. | 儀器的發展不僅與一個國家的科技進步高度相關,而且對經濟發展和產業進步也有著巨大的影響。而儀器的發展進程往往與許多新興課題的需要,彼此相輔相成。從去年開始,台灣物理學會已經新增一個聯合領域,將加速器物理與儀器發展相結合,促進加速器相關研究和儀器發展科學技術。而在今年,除了加速器物理與儀器發展的研究工作外,我們也將增加一個新的領域,希望在各領域有特殊實驗技術的研究人員,能夠分享你們的經驗,並促進不同領域的學者彼此間研究工作的合作。 本領域歡迎與加速器研究、加速器應用、同步輻射、任何研究領域的儀器發展、以及特殊的實驗技術的研究工作者,有一個與物理界科學家們深入對談的機會,藉此互動共同提升台灣物理界加速器發展與儀器開發領域的發展。 | instrumentation development, accelerator physics, applications of accelerator, synchrotron radiation, special experimental technique, Interdisciplinary | 儀器發展、加速器物理、加速器應用、同步輻射、特殊實驗技術、跨領域 |
13 AM-原子/分子 Atomic and Molecular Physics | The subcommittee solicits reports on original works in atomic, molecular, and optical physics. We welcome both theoretical and experimental work and accept paper contributions that are related to but not limited to the following topics: * structure and properties of atoms/molecules, * atomic/molecular spectroscopy, * collisions and interactions among atoms/molecules/photons, * lasers and quantum/nonlinear optics, * ultrafast science and high-field physics, * cold atoms/molecules, * degenerate quantum gases and many-body physics, * fundamental constants, precision measurements, and metrological applications. | 本領域徵求原子、分子與光學物理領域的原創投稿。我們歡迎理論和實驗工作、並接受相關於但不限於以下主題的投稿: * 原子/分子結構與性質 * 原子/分子光譜學 * 原子/分子/光子間的碰撞與交互作用 * 雷射、量子/非線性光學 * 超快科學、強場物理 * 冷原子/分子 * 量子簡併氣體、多體物理 * 基本常數、精密量測、計量學應用 | Atoms, molecules, optics, lasers, spectroscopy, atomic structure, molecular structure, atomic interactions, molecular interactions, atom-photon interactions, quantum optics, nonlinear optics, degenerate quantum gases, many-body physics, ultrafast science, strong-field physics, cold atoms, cold molecules, precision measurements, fundamental constants. | 原子、分子、光學、雷射、光譜學、原子結構、分子結構、原子交互作用、分子交互作用、原子與光交互作用、量子光學、非線性光學、量子簡併氣體、多體物理、超快科學、強場物理、冷原子、冷分子、精密量測、基本常數。 |
14 PT-物理教學 Physics Teaching | The contents solicited in this field include the research of physical education, physics teaching method and practice research, research and development of innovative teaching methods and material of physics, the study of guidance methods on physics subject, the applied research on physics education, etc. All contributions are welcome. | 本領域徵求內容包含物理教育研究、物理教學方法與實務研究、創新物理教材教法研發、物理專題指導方法研究、物理教育應用研究等皆歡迎投稿。 | Physical education, physical teaching, innovative teaching material of physics, the research on physics subject, applied research on physics education | 物理教育、物理教學、創新物理教材、物理專題研究、物理教育應用 |
15 EES主題論壇:新興能源科學 Topical Symposia:Emerging Energy Science | The United Nations Climate Change Conference (COP26), held in November 2021, is the most important meeting to evaluate the responses of governments to climate change for the first time after the Paris Agreement. To avoid severe climate change, the adoption of the Glasgow Climate Pact and the reaffirmation of the Paris Agreement's 1.5 °C limit become crucial. This is also a first agreement that explicitly mentions we must reduce carbon dioxide emissions by 50% by 2030 and eventually achieve net zero emission by 2050, and will formulate carbon market rules. Therefore, the government announced Taiwan's "2050 Net-Zero Emission Pathway" in 2022 to meet the standards of the convention, and plans to further increase renewable energy (~65%), hydrogen energy (~10%), thermal power combined with carbon capture (~25%) to achieve effectively decarbonization. However, Taiwan's energy imports still account for more than 90% of the total, and how to achieve carbon neutrality from reducing to phasing out coal is a big challenge. The "Emerging Energy Science" forum will focus on various emerging green energy and technologies, covering hydrogen energy, solar energy, artificial photosynthesis, nanocatalysis, energy storage secondary batteries, supercapacitors, thermoelectric and other energy materials. Through the exchange of basic scientific research across fields (nanoscience, semiconductors, optics and optoelectronics), integrating technology and scientific research knowledge, we hope to accelerate the research and development of domestic energy technology, adjust the energy structure with active actions in response to climate change, and achieve net-zero emission target. | 聯合國氣候變遷大會(COP26)於2021年11月舉行,為「巴黎協定」後就各國政府在全球氣候變遷之因應首次進行評量的最重要會議。避免日益嚴重的氣候變遷,通過了「格拉斯哥氣候公約」,重申「巴黎協定」1.5 °C的限溫,對於溫室氣體的控制變得至關重要。並為首次明確提及減碳的氣候協議,須在2030年將二氧化碳排放量減少五成,並在2050年達到淨零排放,同時也將制定碳市場規則。因此,政府於2022年公布台灣「2050淨零排放路徑」以因應公約標準,規劃將再提高再生能源 (~65%)、氫能(~10%)、火力發電結合碳捕捉(~25%)占比,以達有效去碳化。惟至今台灣能源進口仍高居九成以上,如何從減少到淘汰煤能以達碳中和實為一大挑戰。「新興能源科學」論壇將著重各種新興綠色能源與技術,涵蓋氫能、太陽能、人工光合作用、奈米催化、儲能二次電池及超電容、熱電等能源材料。透過跨領域(奈米科學,半導體,光學光電)之基礎科學研究交流,整合技術與科研知識,盼能加速國內能源科技之研究發展以積極具體的氣候變遷行動調整能源結構,早日達到能源轉型淨零排放目標。 | Surface Science and Low-Dimensional Physics, Semiconductors/Optoelectronics,Optics and Photonics | 表面與低維物理、半導體/光電、光學 |
16 CMD主題論壇:強關聯系統與量子多體動力學 Topical Symposia:Correlated many-body dynamics | Many-body quantum dynamics lie at the interface between quantum statistics, quantum information, and fundamental understanding of universe. In addition to its connection with fundamental science, it also plays an important role in future quantum technologies. The challenging subject is driven by recent discoveries based on the synergy between advanced theoretical understanding and frontier numerical methods on interdisciplinary platforms where novel discoveries, such as disorder-free localization, quantum scars, and its connection with statistical physics, were found. | 量子多體動力學涵蓋量子統計、量子資訊以及早期宇宙的基本理解。除了與基礎科學的連結外,他也在未來量子科技的發展中扮演重要的角色。這個充滿挑戰的主題,是由近期跨領域理論研究的進展和跨領域的前沿數值方法所共同推動的。近期的新發現包含無雜質局域化行為、量子疤痕以及與統計力學基礎的連結。 | Superconductivity/Strongly Correlated Systems/Quantum Materials, Quantum Information and Quantum Computing, Statistical and Computational Physics | 超導與強關聯電子系統、量子資訊與量子計算、統計/計算物理/非線性動力學 |