After giant kaiju threaten to destroy Japan, the guardian spirits of the nation, known as ‘Yokai’ appear before the young boy Kei… They tell him he is the descendent of the legendary monster slayer Watanabe no Tsuna, and may be the only person who can stop the catastrophe. Great Yokai War: Guardians is the epic manga adaptation of the hit movie!
The second volume in the hit manga adaptation of the 2021 movie of the same name, The Great Yokai War: Guardians is the epic adventure of a seemingly ordinary student who inherits the power of a legendary monster hunter, to defeat the monstrous yokai rampaging towards Tokyo. The adventure continues in The Great Yokai War: Guardians Volume 2! Kei must continue his quest against the evil yokai, learning more about the legendary heroes from which he is descended and mastering his own powers to combat the threat!
The Great Yokai War Guardians reaches its epic conclusion in this third volume of the hit manga adaptation of the movie of the same name! Kei and his yokai allies are all that stands between Tokyo and complete annihilation… As the yokaiju rampages ever closer to the great city, the boys must learn the skills from their ancient ancestors to stop the threat once and for all!
There’s a fox in the henhouse known as Kamisu 66-Acreage – a Fiend! Saki and her friends are now in a position where they cannot defend against their mass destruction. Those given their genetic composition and programming, even gods themselves run, but cannot hide.
The Great Yokai War Guardians reaches its epic conclusion in this third volume of the hit manga adaptation of the movie of the same name! Kei and his yokai allies are all that stands between Tokyo and complete annihilation… As the yokaiju rampages ever closer to the great city, the boys must learn the skills from their ancient ancestors to stop the threat once and for all!
After giant kaiju threaten to destroy Japan, the guardian spirits of the nation, known as ‘Yokai’ appear before the young boy Kei… They tell him he is the descendent of the legendary monster slayer Watanabe no Tsuna, and may be the only person who can stop the catastrophe. Great Yokai War: Guardians is the epic manga adaptation of the hit movie!
The second volume in the hit manga adaptation of the 2021 movie of the same name, The Great Yokai War: Guardians is the epic adventure of a seemingly ordinary student who inherits the power of a legendary monster hunter, to defeat the monstrous yokai rampaging towards Tokyo. The adventure continues in The Great Yokai War: Guardians Volume 2! Kei must continue his quest against the evil yokai, learning more about the legendary heroes from which he is descended and mastering his own powers to combat the threat!
This book presents a novel method of synthesizing sequence-specific DNA binding pyrrole–imidazole (Py–Im) polyamides and demonstrates polyamides targeting longer base pairs than those previously reported and their cellular application. It discusses the development of the facile synthetic method of tandem hairpin Py–Im polyamides and the method of visualizing telomeres under mild conditions without harsh denaturation, as well as research resulting in the synthesis not only of previously reported tandem dimer polyamides but also longer tandem trimer and tetramer polyamides. Using fluorescently labeled tandem hairpin Py–Im polyamides targeting a human telomere repetitive sequence, the author successfully stained telomeres in fixed cells without denaturation. These fluorescently labeled tandem tetramer polyamides are able to visualize human telomeres with lower background signals than previous polyamide probes, suggesting that they have higher specificity for telomeres. As such, this book provides insights into recent advance in Py–Im polyamides, particularly the extension of the target sites c
These lecture notes provide a tutorial review of non-Abelian discrete groups and show some applications to issues in physics where discrete symmetries constitute an important principle for model building in particle physics. While Abelian discrete symmetries are often imposed in order to control couplings for particle physics - in particular model building beyond the standard model - non-Abelian discrete symmetries have been applied to understand the three-generation flavor structure in particular. Indeed, non-Abelian discrete symmetries are considered to be the most attractive choice for the flavor sector: model builders have tried to derive experimental values of quark and lepton masses, and mixing angles by assuming non-Abelian discrete flavor symmetries of quarks and leptons, yet, lepton mixing has already been intensively discussed in this context, as well. The possible origins of the non-Abelian discrete symmetry for flavors is another topic of interest, as they can arise from an underlying theory - e.g. the string theory or compactification via orbifolding – thereby providing a possible bridge between the underlying theory and the corresponding low-energy sector of particle physics. This text explicitly introduces and studies the group-theoretical aspects of many concrete groups and shows how to derive conjugacy classes, characters, representations, and tensor products for these groups (with a finite number) when algebraic relations are given, thereby enabling readers to apply this to other groups of interest.
This lecture note provides a tutorial review of non-Abelian discrete groups and presents applications to particle physics where discrete symmetries constitute an important principle for model building. While Abelian discrete symmetries are often imposed in order to control couplings for particle physics—particularly model building beyond the standard model—non-Abelian discrete symmetries have been applied particularly to understand the three-generation flavor structure. The non-Abelian discrete symmetries are indeed considered to be the most attractive choice for a flavor sector: Model builders have tried to derive experimental values of quark and lepton masses, mixing angles and CP phases on the assumption of non-Abelian discrete flavor symmetries of quarks and leptons, yet lepton mixing has already been intensively discussed in this context as well. Possible origins of the non-Abelian discrete symmetry for flavors are another topic of interest, as they can arise from an underlying theory, e.g., the string theory or compactification via orbifolding as geometrical symmetries such as modular symmetries, thereby providing a possible bridge between the underlying theory and corresponding low-energy sector of particle physics. The book offers explicit introduction to the group theoretical aspects of many concrete groups, and readers learn how to derive conjugacy classes, characters, representations, tensor products, and automorphisms for these groups (with a finite number) when algebraic relations are given, thereby enabling readers to apply this to other groups of interest. Further, CP symmetry and modular symmetry are also presented.
A copper-catalyzed direct synthesis of 2-(aminomethyl)indoles by catalytic domino reaction including multi-component coupling was developed, and is the first example of a three-component indole formation without producing salts as a byproduct. Based on this reaction, a copper-catalyzed synthesis of 3-(aminomethyl)isoquinoline was accomplished which represents an unprecedented isoquinoline synthesis through a four-component coupling reaction. Following these results, extensive application studies using one-pot palladium-, acid-, or base-promoted cyclization revealed that indole- or isoquinoline-fused polycyclic compounds can be readily synthesized through multi-component reactions. As the concept of Green Chemistry becomes ever more important, these findings may provide efficient and atom-economical approaches to the diversity-oriented synthesis of bioactive compounds containing a complex structure. This could lead to development of promising drug leads with structural complexity. The work of this thesis will go on to inspire the synthetic research of many readers.
This clear and self-contained review of the last four decades of research highlights in the hot field of nonlinear optical (NLO) crystals, particularly of borate-based ultraviolet and deep-ultraviolet NLO crystals, covers three major subjects: the structure-property relationship in borate crystals, the structural and optical characteristics of various promising borate crystals, and their fruitful applications in a wide range of scientific and technological fields. Edited by the discoverers and users of these optical borate crystals, this is a readily accessible reading for semiconductor, applied and solid state physicists, materials scientists, solid state chemists, manufacturers of optoelectronic devices, and those working in the optical industry.
Now twenty-six, Saki and Satoru seem to be well-adjusted adults. While they’ve never forgotten the cruel fates of their childhood friends, reforming the town’s severe ways has been beyond them. Change has a way, however, of crashing in. And in this case, at a time when those within the rope are celebrating their summer festival, change is going to rain on them violently!
The epic conclusion of The Poetry of Ran, as Torue, a young bard, records the exploits of the untouchable monster hunter Ran – a man who absorbs the evil he destroys into himself to prevent it from leaking out into the world…
This book covers high-transition temperature (Tc) s-wave superconductivity and the neighboring Mott insulating phase in alkali-doped fullerides. The author presents (1) a unified theoretical description of the phase diagram and (2) a nonempirical calculation of Tc. For these purposes, the author employs an extension of the DFT+DMFT (density-functional theory + dynamical mean-field theory). He constructs a realistic electron–phonon-coupled Hamiltonian with a newly formulated downfolding method. The Hamiltonian is analyzed by means of the extended DMFT. A notable aspect of the approach is that it requires only the crystal structure as a priori knowledge. Remarkably, the nonempirical calculation achieves for the first time a quantitative reproduction of the experimental phase diagram including the superconductivity and the Mott phase. The calculated Tc agrees well with the experimental data, with the difference within 10 K. The book provides details of the computational scheme, which can also be applied to other superconductors and other phonon-related topics. The author clearly describes a superconducting mechanism where the Coulomb and electron–phonon interactions show an unusual cooperation in the superconductivity thanks to the Jahn–Teller nature of the phonons.
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