Bulletin of the American Physical Society
22nd Annual Meeting of the APS Northwest Section
Volume 67, Number 5
Friday–Saturday, June 3–4, 2022; Thompson Rivers University, Kamloops, British Columbia, Canada
Session H01: Poster Session (3:30-5:00pm, PT) |
Hide Abstracts |
|
H01.00001: An Interaction Bulk-Boundary Relation and its Applications Towards Symmetry Breaking and Beyond Saran Vijayan, Fei Zhou Our study focuses on interactions between Topological surface matter. Surface fermions in a topological insulator have acquired a lot of attention, particularly for their property that they do not have the Fermion doubling problem, an issue inherent in all fermions in the lattice. Hence if one could engineer an attractive interacting topological surface, the resulting superconducting phase can have emergent Majorana-like elementary excitations. In this respect, we studied the renormalization effect of the gapped bulk fermions on the interacting topological surface matter. We found that the attractive phonon-mediated interaction between the surface fermions is the strongest when the bulk Debye frequency, \Omega_{D} matches the bulk energy gap 'm', a phenomenon we prefer to call 'dynamical resonance'. We also propose a simple scaling relation that connects the interactions between the gapped |
|
H01.00002: Calculating the Gravitational Frequency of Universe Gh. Saleh We have calculated the gravitational frequency of solar systems, between planets, planets and their moons, black holes, black holes and their stars, etc. But here as an abstract, we will calculate the gravitational frequency of solar systems. |
|
H01.00003: NASA 2024 Decadal Survey: Deep Learning and Computer Vision for Heliophysics Thomas Chen To make meaningful advancements in heliophysics, computer vision techniques based on deep neural networks (DNNs) are a crucial emerging tool. Fundamentally, computer vision is the study of training algorithms to gain high-level insights from imagery and video data, which is especially relevant to a largely observationally-based field such as heliophysics. Machine learning is applied to solar feature detection and phenomenon classification. Utilizing images taken in a multitemporal fashion, computer vision-based approaches can detect solar flares, filament eruptions, coronal jets, etc. and measure properties of our observations over timescales. Data from NASA's Solar Dynamics Observatory (SDO), including Atmospheric Imaging Assembly (AIA) and Helioseismic and Magnetic Imagery (HMI) data, are a useful source of imagery for training computer vision models. In this white paper, we briefly highlight current areas of application at the intersection of artificial intelligence and heliophysics and propose how the solar physics and astrophysics scientific communities can join to fill in interdisciplinary technological gaps. |
|
H01.00004: High-Quality Consciousness from Human’s Mind to the Cosmos Hassan Gholibeigian, Zeinab Gholibeigian More than eight hundred of the two clefts’ experiments which have been done in different universities and laboratories show that the fundamental particles (FPs) are conscious. This consciousness is at a preliminary level of quality because the matter’s informational potentials (minds) of cosmos’ FPs are on and active [H.Gholibeigian, Z. Gholibeigian, APS.L027.2015]. But the human’s consciousness is at its highest level of quality because his/her FPs’ minds are on and active [H.Gholibeigian, Z. Gholibeigian, APS.L027.2015]. On the other hand, the human’s structure—like an atom and other subjects— is constituted by two wavy-like geometries (quantum fields): the first; quantum field of his/her FPs, and the second; quantum field of the minds of those FPs like a three-dimensional hologram which we call it the “human’s mind”. Processed information (qubits) of the human’s FPs is stored permanently within FPs—from Big Bang until now—and also on the boundary surface of this hologram. The human's hologram acts as a sub-hologram of the Universe’s hologram and transmits the processed information to its boundary surface. Therefore, the cosmos that hosts us and has an evolutionary arrow inherent is always along with the final humans’ consciousness and uses it in its continuous evolution processes. |
|
H01.00005: Study on the Thermodynamic Stability of Biodegradable Compounds and Strategy to Enhance Degradation Efficiency of Organic Pollutants Min Jin, Richard Kyung Synthetic polymers have benefits for daily life, but their durability and chemical stability make them difficult to break down causing ecological problems. |
|
H01.00006: Study on Metal-Organic Frameworks (MOFs) for Biomaterials Used in Tissue Engineering Eunice Jeong, Richard Kyung Metal-organic Frameworks (MOFs) have been studied by researchers for their applications in biomaterial research areas, Tissue Engineering and Regenerative Medicine (TERM), by adjusting them to specific biomedical applications to improve their efficacy. |
|
H01.00007: Dynamics of Porphyrin-DNA Complexes Using Biophysical and Computational Analysis Richard Kyung
|
|
H01.00008: Developing an open source method to determine blood velocity from the audio output of a commercial ultrasound Doppler Amelia Oberle, Mark Rakobowchuk, Mark J Paetkau Ultrasound machines can be used to find the blood flow velocity of a subject. The raw audio output from the machines is interpreted as the doppler-shifted signal due to the blood flow. The data can be be used to determine the Doppler-shift and used to determine blood flow velocity as a function of time. A fast Fourier transform (FFT) algorithm on the audio output provides mean frequency. By applying the FFT to small windows of data, the output velocities from each window are found are plotted against time to create a visual model of how the blood velocity changes over time. The blood velocity will then be correlated with other physiological measurements. |
|
H01.00009: New discovery about the nature of neutrinos and their structure Gh. Saleh Scientists, based on their several years experience and after vast investigations, have found some of features about neutrinos. |
|
H01.00010: A great revolution in producing affordable, abundant, convenient, clean and… energy so that one kilogram of it, could supply the power of moving a machine for years! Gh. Saleh Nowadays, about 90% of our appliances are electron-dependent. It can be said that the moving electron has a high ability to do work. All we know, the speed of electron in wires is close to the speed of light, but another effective parameter that makes electron have a very high ability to perform various tasks is its density: |
|
H01.00011: Study on Nanomaterials to Reduce Reactive Oxygen Species for the Treatment of Tumor Cells Jayden Choi, Richard Kyung This project examines an effective tumor cell therapy using targeted nanoparticles including metalloporphyrin derivatives. Due to limitless combinations of metals and porphyrins, the pharmaceutical properties of the compounds can be tuned for specific applications. Because the molecules exhibit exceptionally high surface areas with large pore sizes, the main application that is used in this project is loading functional groups in nanoparticles of several drug molecules used in reducing the Reactive Oxygen Species in affected cells. In this case, the compounds can be used as drug delivery vehicles as cell-targeting molecules. |
|
H01.00012: Epidemic Models as Applied Physics Jesse M Kinder Physics can provide insight into epidemics, and epidemic models are an opportunity for interdisciplinary research. I discuss three complementary methods for studying epidemics — continuous dynamics, stochastic dynamics, and Monte Carlo simulation — and the efforts of a physics professor, a biology student, and an applied mathematics student in applying them to study the effects of fluctuations and social networks on the spread of epidemics. |
Follow Us |
Engage
Become an APS Member |
My APS
Renew Membership |
Information for |
About APSThe American Physical Society (APS) is a non-profit membership organization working to advance the knowledge of physics. |
© 2024 American Physical Society
| All rights reserved | Terms of Use
| Contact Us
Headquarters
1 Physics Ellipse, College Park, MD 20740-3844
(301) 209-3200
Editorial Office
100 Motor Pkwy, Suite 110, Hauppauge, NY 11788
(631) 591-4000
Office of Public Affairs
529 14th St NW, Suite 1050, Washington, D.C. 20045-2001
(202) 662-8700