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1. Structure and Formation of Z-DNA and Z-RNA

   https://doi.org/10.3390/molecules28020843  

   Krall, Jeffrey B.; Nichols, Parker J.; Henen, Morkos A.; Vicens, Quentin; Vögeli, Beat (January 2023, Molecules)

   Despite structural differences between the right-handed conformations of A-RNA and B-DNA, both nucleic acids adopt very similar, left-handed Z-conformations. In contrast to their structural similarities and sequence preferences, RNA and DNA exhibit differences in their ability to adopt the Z-conformation regarding their hydration shells, the chemical modifications that promote the Z-conformation, and the structure of junctions connecting them to right-handed segments. In this review, we highlight the structural and chemical properties of both Z-DNA and Z-RNA and delve into the potential factors that contribute to both their similarities and differences. While Z-DNA has been extensively studied, there is a gap of knowledge when it comes to Z-RNA. Where such information is lacking, we try and extend the principles of Z-DNA stability and formation to Z-RNA, considering the inherent differences of the nucleic acids. 

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2. Bounded projections to the Z$$\mathcal {Z}$$‐factor graph

   https://doi.org/10.1112/topo.70024  

   Clay, Matt; Uyanik, Caglar (June 2025, Journal of Topology)

   Abstract Suppose that is a free product , where each of the groups is torsion‐free and is a free group of rank . Let be the deformation space associated to this free product decomposition. We show that the diameter of the projection of the subset of where a given element has bounded length to the ‐factor graph is bounded, where the diameter bound depends only on the length bound. This relies on an analysis of the boundary of as a hyperbolic group relative to the collection of subgroups together with a given nonperipheral cyclic subgroup. The main theorem is new even in the case that , in which case is the Culler–Vogtmann outer space. In a future paper, we will apply this theorem to study the geometry of free group extensions. 

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3. Z-Splat: Z-Axis Gaussian Splatting for Camera-Sonar Fusion

   https://doi.org/10.1109/TPAMI.2024.3462290  

   Qu, Ziyuan; Vengurlekar, Omkar; Qadri, Mohamad; Zhang, Kevin; Kaess, Michael; Metzler, Christopher; Jayasuriya, Suren; Pediredla, Adithya (September 2024, IEEE Transactions on Pattern Analysis and Machine Intelligence)

   Differentiable 3D-Gaussian splatting (GS) is emerging as a prominent technique in computer vision and graphics for reconstructing 3D scenes. GS represents a scene as a set of 3D Gaussians with varying opacities and employs a computationally efficient splatting operation along with analytical derivatives to compute the 3D Gaussian parameters given scene images captured from various viewpoints. Unfortunately, capturing surround view (360° viewpoint) images is impossible or impractical in many real-world imaging scenarios, including underwater imaging, rooms inside a building, and autonomous navigation. In these restricted baseline imaging scenarios, the GS algorithm suffers from a well-known ‘missing cone’ problem, which results in poor reconstruction along the depth axis. In this paper, we demonstrate that using transient data (from sonars) allows us to address the missing cone problem by sampling high-frequency data along the depth axis. We extend the Gaussian splatting algorithms for two commonly used sonars and propose fusion algorithms that simultaneously utilize RGB camera data and sonar data. Through simulations, emulations, and hardware experiments across various imaging scenarios, we show that the proposed fusion algorithms lead to significantly better novel view synthesis (5 dB improvement in PSNR) and 3D geometry reconstruction (60% lower Chamfer distance). 

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4. A Spectral Atlas of Lyα Emitters at z = 5.7 and z = 6.6

   https://doi.org/10.3847/1538-4357/ad5674  

   Songaila, A; Cowie, L L; Barger, A J; Hu, E M; Taylor, A J (August 2024, The Astrophysical Journal)

   Abstract We present two uniformly observed spectroscopic samples of Lyαemitters (LAEs; 127 atz= 5.7 and 82 atz= 6.6), which we use to investigate the evolution of the LAE population at these redshifts. The observations cover a large field (44 deg²) in the North Ecliptic Pole, as well as several smaller fields. We have a small number of exotic LAEs in the samples: double-peaked Lyαprofiles; very extended red wings; and one impressive lensed LAE cross. We also find three broad-line active galactic nuclei. We compare the Lyαline width measurements at the two redshifts, finding that the lower-luminosity LAEs show a strong evolution of decreasing line width with increasing redshift, while the high-luminosity LAEs do not, with a transition luminosity of logL(Lyα) ≈ 43.25 erg s⁻¹. Thus, atz= 6.6, the high-luminosity LAEs may be producing large ionized bubbles themselves, or they may be residing in overdense galaxy sites that are producing such bubbles. In order to avoid losses in the red wing, the radius of the ionized bubble must be larger than 1 pMpc. The double-peaked LAEs also require transmission on the blue side. For the four atz= 6.6, we use models to estimate the proximity radii,R_a, where the ionizing flux of the galaxy is sufficient to make the surroundings have a low enough neutral fraction to pass the blue light. Since the requiredR_aare large, multiple ionizing sources in the vicinity may be needed. 

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5. Photothermal Mirror Z-Scan

   Marcano, A. (May 2019, Conference on Lasers and Electro-Optics, OSA Technical Digest)

   This work describes a pump-probe photothermal mirror Z-scan experiment aimed at the determination of thermal diffusivity, thermoelastic coefficient, and quantum yield of thermal heating of the surface of transparent and non- transparent solid samples including films. 

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