I got into the hobby in earnest in 2019. Now, 5 years in, I have more games than I need, but not as much as I want. I thought it interesting to see how many games I acquired each year and the number still unplayed. These numbers do not include expansions Box-Shaped Opportunities...
“In our nuclear periodic table, we also see that nuclei tend to be spherically-shaped near the magic numbers, but deformed as you move away from them.” The team made the table to highlight alternative ways to illustrate the laws of nature, and hopes that enthusiasts and academics alike w...
The magic constant or magic sum of a magic square is the sum of numbers in any row, column, or diagonal of the magic square. La magia konstanto de magia kvadrato estas la sumo de nombroj en iu vico, kolono, kaj diagonalo de la magia kvadrato. WikiMatrix Schreck states that,...
The development of therapeutic antibody agents to treat infectious diseases lags far behind that of those to treat non-infectious diseases, although it is well-known that antibodies can control infectious diseases [36,37,38,39]. In comparison to the reagents used in immunotherapies, antibiotics are...
Landau level degeneracies at each insulating dip is written in white numbers. f, g, Real space dI/dV map (f) and Fourier transformation (g) taken at VGate = −10V showing lattice tripling. h, i, Real space dI/dV map (h) and Fourier transformation (i) taken at VGate = ...
In the present example, the O-H stretch vibrations are shifted to lower wave numbers. This can be attributed to the use of the BLYP functional. BLYP, as a GGA (generalized gradient approximation) functional, has a very good cost-value ratio, but clearly does not have the accuracy of a ...
<p>To answer the question regarding magic number elements, we can break down the explanation into clear steps:</p><p>1. <strong>Understanding Magic Numbers</strong>: - Magic numbers refer to specific numbers of nucleons (protons and neutrons) in an a
For the multi-Zeeman level structure of a quadrupolar nuclide with S ⩾ 3/2 (Section 9.20.5.1), 3Q coherences involve transitions such as m ↔ m ± 3, i.e., they correspond to a difference of 3 in the magnetic quantum numbers (or more precisely: ± 3). Although such high-order...
In this region, a transition nevertheless occurs at \({{\Delta }}=6\sqrt{3}| {t}_{2}| \sin \phi\) (up to tn≥3 terms), where the single-particle gap between the two moiré bands closes, and their Chern numbers change from [+1, −1] to [0, 0]. This gap closing ...
For example, for 2D SOC and Q = 2π/φ2, the infinite sequence is given by half the even Fibonacci numbers F3n/2, which is the sequence 1, 4, 7, 72, 305, … (see Supplementary Note 3). In the incommensurate limit, near the magic-angle transition this sequence of gaps ...