研究的机会

Incoming projects include characterizing the population of x射线 emitting sources in nearby low-mass, low-metallicity galaxies using archival x射线 telescope observations, using time-domain optical surveys to characterize the variability of high mass x射线 binaries in Andromeda (M31), and constraining the formation channels of observed high mass x射线 binary systems by comparing with simulations. These observational research projects use multi-wavelength observations spanning from optical to hard x射线 wavelengths.  

Learning outcomes: 学生 will become proficient in Python programming, UNIX/Linux operating system including installing and using command-line based software tools, 科学阅读, 写作及口头陈述. 

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内容更新中，2024年6月

项目1 – Synthesis and characterization of thin film alloys (thin-film evaporator and 电 resistivity measurements between 77 K < T < 300 K); metal-insulator transition in metallic oxides and bulk-metallic-glass forming alloys 

项目2 – Robotics and instruments to support NASA’s Artemis Moon program; autonomous robotics and instruments for NASA MINDS Program and other NASA missions to icy moons 

项目3 – Low temperature single-photon detectors for measurements in the infrared, x射线, and gamma ray wavelength ranges for astrophysical research; properties of large-scale structure in the Universe 

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项目1 -人为分子对气候的影响 

This project aims to provide qualitative information on the climate impact of new anthropogenic compounds released into the atmosphere. The students will perform data acquisition using Fourier transform spectroscopy to extract the climate metric of the targeted molecules.  

Learning outcomes: The students will learn how to operate a research-grade Fourier transform spectrometer as well as gas handling and vacuum systems. Additionally, they will become proficient in data processing and analysis using Matlab. 

项目2 – Detection of pollutant by attenuated total reflection spectroscopy 

The goal of this project is to detect the presence of per- and polyfluoroalkyl substances (PFASs), also known as "forever chemicals" in our environment using attenuated total reflection spectroscopy. 学生 will perform test on liquids and surfaces and test the limit of reliability of this technique. 

Learning outcomes: The students will learn how to operate a research-grade Fourier transform spectrometer equipped with an ATR. Additionally, they will become proficient in data processing and analysis. 

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项目1 – Magnetospheric interactions in the Saturn system 

This project has for goal to study the interactions between Titan (the biggest satellite of Saturn), and its magnetic envelop (Saturn’s magnetosphere). Ultraviolet spectra from the Cassini spacecraft will be used to analyzed the response of Titan’s upper atmosphere to magnetospheric particle precipitation. The core of the project is to analyze 13+ years of Cassini data at Titan showing ultraviolet changing glowing patterns of Titan’s atmosphere according to Titan’s orbital position.  

Learning outcomes: 学生 will learn about planetary atmospheres, become proficient at interpreting ultraviolet spectra, and develop computational skills using Python. 可以通过联邦拨款获得资金. 

项目2 – Waves in the upper atmosphere of Mars (Opening for a graduate student) 

This project has for goal to study wave patterns detected in the upper atmosphere of Mars. The Mars Atmosphere and Volatile Evolution (MAVEN) spacecraft currently orbiting Mars revealed the presence of waves in the ultraviolet Nitric Oxide airglow emission in the upper atmosphere of Mars. This project has for objective to perform a harmonic analysis of the MAVEN ultraviolet data to uncover the nature and origin of the waves. 

Learning outcomes: 学生 will learn about planetary atmospheres, become proficient at interpreting ultraviolet spectra, 了解波动理论, and develop computational skills using Python.  

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