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61
Image15_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.JPEG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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62
Image12_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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63
Image14_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.JPEG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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64
Image11_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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65
Image8_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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66
Image2_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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67
Image3_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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68
Image13_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.JPEG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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69
Image5_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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70
Image9_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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71
Image4_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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72
Image6_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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73
Image1_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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74
Image7_Wave-particle interactions toolset: A python-based toolset to model wave-particle interactions in the magnetosphere.PNG
Published 2022“…We present WPIT, the Wave-Particle Interactions Toolset, an open source, Python-based set of tools for modelling the interactions between energetic charged particles and VLF waves in the magnetosphere through test particle simulations. …”
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75
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76
SciPy2024: Facilitating scientific investigations from long-tail data with Python
Published 2024“…However, until 2023, researchers in this field could not unlock the full potential of the Pandas library as the Numpy datetime underpinning most time series functionalities only span 584 years, not the billions required for paleoclimate studies. This presentation walks through our work on creating a non-nanosecond datetime for Pandas and the development of Python toolboxes to query databases and analyze datasets using Pandas objects for interoperability.…”
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77
Data_Sheet_1_Brian2CUDA: Flexible and Efficient Simulation of Spiking Neural Network Models on GPUs.pdf
Published 2022“…These advances, however, are often not available to researchers interested in simulating spiking neural networks, but lacking the technical knowledge to write the necessary low-level code. Writing low-level code is not necessary when using the popular Brian simulator, which provides a framework to generate efficient CPU code from high-level model definitions in Python. …”
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78
Running times of equivalent programs based on <i>TextFormats</i> or other libraries, implemented in Nim, Python, and C.
Published 2022“…<p>Running times of equivalent programs based on <i>TextFormats</i> or other libraries, implemented in Nim, Python, and C.…”
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79
FeO<sub>s</sub>: An Open-Source Framework for Equations of State and Classical Density Functional Theory
Published 2023“…Equations of state can be implemented in Rust, yielding performant code, or as a Python class, which is useful for prototyping and with less emphasis on execution speed. …”
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80
Python Implementation of HSGAdviser Chatbot: AI model for Sustainable Education
Published 2025“…<p dir="ltr">This repository contains the Python source code and model implementation for HSGAdviser, an AI speech assistant designed to provide personalized college and career guidance for high school students through conversational AI. …”