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1. Iridescent structural color by using ultra-low refractive index aerogel as optical cavity dielectric

   https://doi.org/10.1007/s44374-024-00001-2  

   Paik, Jennie; Feng, Wei-Jie; Clark, Sean_W; Kim, Hyeonwoo; Guo, L_Jay (December 2024, Micro & Nano Manufacturing)

   Abstract Iridescent color-shift pigments have been used in some industrial applications, e.g., for cosmetics and packaging. To achieve environmental-friendly and lasting color, thin-film interference is used to generate structural color. By maximizing the refractive index (RI) difference between the thin films (i.e., using an ultralow RI film), super-iridescent structural color can be produced. While the lowest refractive index of a naturally occurring solid dielectric is close to 1.37 (i.e., MgF₂), we synthesized highly porous dielectric SiO₂aerogel to achieve ultralow-RI (n ~ 1.06) and demonstrated a high-refractive index/low-refractive index/absorber (HLA) trilayer structural color. The achieved structural color is highly iridescent and capable of tracing a near-closed loop in CIE color space. By tuning the refractive index, thickness, and geometry of the aerogel layer, we control the reflection dip’s shape, therefore producing a wide range of vivid and iridescent colors. 

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2. Removing Barriers to Science and the Outdoors for Teenage Youth and Early Career Professionals in the US Arctic and Beyond: An Expedition-Based Model

   https://doi.org/10.3167/sib.2023.220103  

   Young, Joanna; Clement, Sarah; Pettit, Erin (March 2023, Sibirica)

   Abstract Inspiring Girls* Expeditions is a global organization that empowers 16- to 18-year-old youth through 12-day backcountry science and art expeditions, including in the US Arctic and Subarctic. Because science and outdoor fields are historically white- and male-dominated, Inspiring Girls* follows an intersectional approach to welcome youth with marginalized genders, people of color, Indigenous people, and other marginalized groups into these arenas. Inspiring Girls* also provides professional development for early career scientist, artist, and outdoor guide instructors. We discuss how Inspiring Girls* leverages our own research as well as best practices from the literature to prioritize such strategies as intentionally building diverse teams, offering a tuition-free format, and participating in community learning to reimagine the inclusivity of science and outdoor fields in the Arctic and beyond. 

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3. Organic Coatings Reduce Dissolution Rate by an Order of Magnitude for Carbonate Minerals Produced by Marine Fish

   https://doi.org/10.1029/2024GB008176  

   Oehlert, Amanda_M; Walls, Sarah; Arista, Katelyn; Garza, Jazmin; Folkerts, Erik_J; Vitek, Brooke_E; Tale_Masoule, Sadegh; Pollier, Clément_G_L; Duchâtellier, Gaëlle; Stieglitz, John_D; et al (November 2024, Global Biogeochemical Cycles)

   Abstract Marine carbonate production and dissolution are important components of the global carbon cycle and the marine alkalinity budget. Global carbonate production by marine fish (ichthyocarbonate) has been estimated to be as high as 9.03 Pg CaCO₃ yr⁻¹; however, the fate of ichthyocarbonate is poorly understood. High magnesium concentrations in ichthyocarbonate would traditionally suggest rapid dissolution under current marine conditions, but a correlation between dissolution rate and mol%MgCO₃has not been observed. Here, we aim to determine the role of organic coatings on dissolution rates of ichthyocarbonate in marine environments. We applied a combination of petrographic, geochemical, and microCT approaches to assess the quantity and distribution of organic matter in ichthyocarbonate produced by two species of marine fish, the Gulf toadfish (Opsanus beta) and the Olive flounder (Paralichthys olivaceus). We show that organic matter, including external coatings and embedded organic material, is volumetrically significant, ranging from 8.5% to 32.3% of ichthyocarbonate by volume. Bleach oxidation of external organic matter coatings increased the dissolution rate of ichthyocarbonate by more than an order of magnitude, suggesting these coatings serve to reduce reactive surface area of the mineral fraction in ichthyocarbonate. Assuming that organic coatings do not influence sinking rates, external coatings extend the depth of ichthyocarbonate persistence in the water column by ∼12–15×. Therefore, organic coatings are an important determinant of the role of ichthyocarbonate in the marine carbon cycle. 

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4. Frequency stability of cryogenic silicon cavities with semiconductor crystalline coatings

   https://doi.org/10.1364/OPTICA.479462  

   Kedar, Dhruv; Yu, Jialiang; Oelker, Eric; Staron, Alexander; Milner, William_R; Robinson, John_M; Legero, Thomas; Riehle, Fritz; Sterr, Uwe; Ye, Jun (April 2023, Optica)

   State-of-the-art optical oscillators employing cryogenic reference cavities are limited in performance by the Brownian thermal noise associated with the mechanical dissipation of the mirror coatings. Recently, crystalline Al_1−xGa_xAs/GaAs coatings have emerged as a promising candidate for improved coating thermal noise. We present measurements of the frequency noise of two fully crystalline cryogenic reference cavities with Al_0.92Ga_0.08As/GaAs optical coatings. We report on birefringent noise associated with anticorrelated frequency fluctuations between the polarization modes of the crystalline coatings and identify variables that affect its magnitude. Comparing the birefringent noise between the two cryogenic reference cavities reveals a phenomenological set of scalings with intracavity power and mode area. We implement an interrogation scheme that cancels this noise by simultaneous probing of both polarization modes. The residual noise remaining after this cancellation is larger than both cavities’ thermal noise limits but still lower than the instabilities previously measured on equivalent resonators with dielectric coatings. Though the source of these noise mechanisms is unclear, we demonstrate that crystalline coatings can provide stability and sensitivity competitive with resonators employing dielectric coatings. 

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5. Glaze: protecting artists from style mimicry by text-to-image models

   Shan, Shawn; Cryan, Jenn; Wenger, Emily; Zheng, Haitao; Hanocka, Rana; Zhao, Ben Y. (August 2023, Proceedings of the USENIX conference)

   Recent text-to-image diffusion models such as MidJourney and Stable Diffusion threaten to displace many in the professional artist community. In particular, models can learn to mimic the artistic style of specific artists after "fine-tuning" on samples of their art. In this paper, we describe the design, implementation and evaluation of Glaze, a tool that enables artists to apply "style cloaks" to their art before sharing online. These cloaks apply barely perceptible perturbations to images, and when used as training data, mislead generative models that try to mimic a specific artist. In coordination with the professional artist community, we deploy user studies to more than 1000 artists, assessing their views of AI art, as well as the efficacy of our tool, its usability and tolerability of perturbations, and robustness across different scenarios and against adaptive countermeasures. Both surveyed artists and empirical CLIP-based scores show that even at low perturbation levels (p=0.05), Glaze is highly successful at disrupting mimicry under normal conditions (>92\%) and against adaptive countermeasures (>85\%). 

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