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1. Best Practices and Lessons Learned on Organizing Effective Cohort-based Undergraduate Summer Research during COVID-19

   Hou, Daqing; Liu, Yu (August 2022, 2022 ASEE Annual Conference & Exposition)

   This paper summarizes the best practices and lessons learned from organizing an effective remote REU Site during COVID-19. Our REU Site is a three-year program that is designed to offer closely-mentored summer research experience to a cohort of ten students in each of the three years. COVID-19 has disrupted our site by forcing us to split our second cohort to two groups, two students in summer 2020 and seven students in summer 2021. However, the experience that we gained in summer 2020 by mentoring the two students virtually online has provided us with the confidence that a virtual REU Site with a larger group can be as effective as in person and on campus. To further improve the quality of our REU Site in the on-line mode, we have applied multiple novel practices. Specifically, before the start of the 2021 REU site we as the site co-directors proactively worked with mentors to better understand the needs of the defined research projects. Subsequently, we tailored the topics covered by the crash course of our site to the needs of the research projects as well as purposefully increasing active learning activities and student interactions. In lieu of the previous in-person bond building activity (a two-day high rope course in a nearby camp), we added virtual scavenger image hunt in orientation and game nights every Wednesday. During the ten weeks, we also organized a half-hour daily check-in and check-out in the morning and afternoon respectively, through which students got ample opportunities to speak in a group setting about their own accomplishments and challenges for the day as well as their plans for the next day. Moreover, a PhD pathways panel and several professional development seminars on Graduate School and the research process were successfully organized to motivate students to pursue a research career. To facilitate communication, our site adopted multiple software tools (slack, google calendar, zoom, and moodle). An independent evaluator evaluated our program through online pre- and post-program surveys for both students and mentors as well as a focus group discussion with students. The evaluation report indicates significant improvement from the summer 2021 site regarding student satisfaction compared to the previous summer 2019 on-site program. Detailed quantitative analysis and lessons learned from the report will be presented in this paper to offer valuable experience and best practices for organizing effective cohort-based undergraduate research programs. 

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2. Expedition 395 Scientific Prospectus Addendum: Reykjanes Mantle Convection and Climate

   https://doi.org/10.14379/iodp.sp.395add.2023  

   Parnell-Turner, R.; Briais, A.; LeVay, L. (April 2023, Scientific prospectus)

   The intersection between the Mid-Atlantic Ridge and Iceland hotspot provides a natural laboratory where the composition and dynamics of Earth’s upper mantle can be observed. Plume-ridge interaction drives variations in the melting regime, which result in a range of crustal types, including a series of V-shaped ridges and V-shaped troughs south of Iceland. Expedition 395 has three objectives: (1) to test contrasting hypotheses for the formation of V-shaped ridges, (2) to understand temporal changes in ocean circulation and explore connections with plume activity, and (3) to reconstruct the evolving chemistry of hydrothermal fluids with increasing crustal age and varying sediment thickness and crustal architecture. After being postponed from summer 2020 due to the COVID-19 pandemic, the drilling objectives of Expedition 395 were partially completed without a science party on board during Expedition 395C in summer 2021, when basalt cores were collected at four sites (U1554, U1555, U1562, and U1563). Sediment cores were collected from these sites, as well as from Site U1564, and casing was installed to 602 meters below seafloor at Site U1554. Expedition 395 is scheduled with sufficient time to complete the planned operations remaining at Sites U1564 and U1554, leaving approximately 22 operating days available for other sites, including a new proposed site, REYK-14B, which is located west of Reykjanes Ridge on the Eirik drift. This addendum provides the operations plan for rescheduled Expedition 395, including details of the additional site. 

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3. Universal interference-based construction of Gaussian operations in hybrid quantum systems

   https://doi.org/10.1038/s41534-022-00581-9  

   Zhang, Mengzhen; Chowdhury, Shoumik; Jiang, Liang (June 2022, npj Quantum Information)

   Abstract Beam-splitter operations are an indispensable resource for processing quantum information encoded in bosonic modes. In hybrid quantum systems, however, it can be challenging to implement reliable beam-splitters between two distinct modes due to various experimental imperfections. Without beam-splitters, realizing arbitrary Gaussian operations between bosonic modes can become highly non-trivial or even infeasible. In this work, we develop interference-based protocols for engineering Gaussian operations in multi-mode hybrid bosonic systems without requiring beam-splitters. Specifically, for a given generic multi-mode Gaussian unitary coupler, we demonstrate a universal scheme for constructing Gaussian operations on a desired subset of the modes, requiring only multiple uses of the given coupler interleaved with single-mode Gaussian unitaries. Our results provide efficient construction of operations crucial to quantum information science, and are derived from fundamental physical properties of bosonic systems. The proposed scheme is thus widely applicable to existing platforms and couplers, with the exception of certain edge cases. We introduce a systematic approach to identify and treat these edge cases by utilizing an intrinsically invariant structure associated with our interference-based construction. 

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4. Undergraduate Hypersonics Research: The Second Year of the REU Site HYPER

   https://doi.org/10.2514/6.2022-0932  

   Gordon, Ali; Kauffman, Jeffrey L.; Burke, Robert F. (January 2022, AIAA SciTech 2022 Forum)

   Training future engineers and scientists for the research-oriented careers necessary to deliver solutions to the challenges of hypersonic flight is important task for the aerospace community at-large. A number of programs and initiatives at the University of Central Florida (UCF) contribute to this need. Among them is the Research Experiences for Undergraduates (REU) site framed on HYpersonic, Propulsive, Energetic, and Reusable Platforms (HYPER) an program housed withing the Center for Advanced Turbomachinery Energy Research (CATER). This residential summer program convening on the UCF main campus prepares a group of undergraduate students to pursue doctoral-level degree programs in aerospace engineering and related disciplines. During the Summer 2021, the second term of the program, HYPER hosted fourteen students. Students conducted intensive research under the guidance of faculty mentors and their graduate student assistants. To support their complete development, HYPER students participated in industry tours, software training, technical seminars, and more. This paper reports the impact of the program in its second year. Data are derived from pre- and post-experience surveys, study groups, and technical assessment activities. Feedback from the first year were implemented in the second year. 

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5. Validation of the Entrainment Signal Regularity Index and associations with children's changes in BMI

   https://doi.org/10.1002/oby.23641  

   Moreno, Jennette P.; Hannay, Kevin M.; Goetz, Amy R.; Walch, Olivia; Cheng, Philip (January 2023, Obesity)

   <sc>A</sc>bstract ObjectiveThis study examined the validity of a novel metric of circadian health, the Entrainment Signal Regularity Index (ESRI), and its relationship to changes in BMI during the school year and summer. MethodsIn a longitudinal observational data set, this study examined the relationship between ESRI score and children's (n = 119, 5‐ to 8‐year‐olds) sleep and physical activity levels during the school year and summer, differences in ESRI score during the school year and summer, and the association of ESRI score during the school year and summer with changes in BMI across those time periods. ResultsThe ESRI score was higher during the school year (0.70 ± 0.10) compared with summer (0.63 ± 0.11);t(111) = 5.484,p < 0.001. Whereas the ESRI score at the beginning of the school year did not significantly predict BMI change during the school year (β = 0.05 ± 0.09 SE,p = 0.57), having a higher ESRI score during summer predicted smaller increases in BMI during summer (β = −0.22 ± 0.10 SE,p = 0.03). ConclusionsOverall, children demonstrated higher entrainment regularity during the school year compared with the summer. During summer, having a higher entrainment signal was associated with smaller changes in summertime BMI. This effect was independent of the effects of children's sleep midpoint, sleep regularity, and physical activity on children's BMI. 

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