Books in the Springer Theses series

In this thesis, the author investigates the biophysical basis of the local field potential (LFP) as a way of gaining a better understanding of its underlying physiological mechanisms.

This research contributes to the growing body of knowledge as well as offers significant theoretical contributions and policy implications.

This book examines Au (I, III) complexes that selectively attack and inhibit zinc finger proteins (ZnFs) for potential therapeutic use.

This book sheds new light on the dynamical behaviour of electron spins in molecules containing two unpaired electrons (i.e.

In this book, the equilibrium and nonequilibrium properties of continuous phase transitions are studied in various systems, with a special emphasis on understanding how well-established universal traits at equilibrium may be extended into the dynamic realm, going beyond the paradigmatic Kibble-Zurek mechanism of defect formation.

The measurement is performed in an invariant mass region of 116 GeV to 1500 GeV as a function of invariant mass and absolute rapidity of the l^+l^-- pair, and as a function of invariant mass and pseudorapidity separation of the l^+l^-- pair.

This thesis investigates the behavior of two candidate materials (a-SiO2 and MgO) for applications in fusion (e.g., the International Thermonuclear Experimental Reactor ITER) and Generation IV fission reactors.

In addition to critical new results on the direct growth of 2D heterostructures, it also details growth mechanisms, surface science, and device applications of "epi-grade" 2D semiconductors, which are essential to low-power electronics, as well as for extending Moore's law.

This thesis describes in-depth theoretical efforts to understand the reaction mechanism of graphite and lithium metal as anodes for next-generation rechargeable batteries.

This book addresses the direct imaging of hydrogen-bond dynamics within water-based model systems assembled on a metal surface, using a scanning tunneling microscope (STM).

This thesis focuses on the dynamics of autonomous Boolean networks, on the basis of Boolean logic functions in continuous time without external clocking.

This book explores the relaxation dynamics of inner-valence-ionized diatomic molecules on the basis of extreme-ultraviolet pump-probe experiments performed at the free-electron laser (FEL) in Hamburg.

This book presents an investigation of the anomalous and topological Hall effects in some itinerant ferromagnets and helimagnets by measuring Hall effects driven by electrical or heat current.

In this book, the author conducts extensive spectroscopy experiments beyond the bounds of each transition element to clarify origins of characteristic spectral features and charge dynamics in charge-spin-orbital coupled phenomena in Mott-transition oxides.

This book covers geometric architecture and tectonic evolution of the Permian series, using seismic interpretation, field studies and 2D restoration of representative cross sections to show the interaction of multiphase extension, inversion and salt diapirism.

This book demonstrates how two universally conserved guanosine triphosphatases in the signal recognition particle and its membrane receptor maintain the efficiency and fidelity of the co-translational protein targeting process essential to all cells.

This book mainly focuses on the experimental research of rf breakdown and field emission with novel methods, including triggering rf breakdown with high intensity laser and pin-shaped cathodes as well as locating field emitters with a high resolution in-situ imaging system.

This book studies the structural, magnetic and electronic properties of, as well as magnetic excitations in, high-temperature BaFe2-xNixAs2 superconductors using neutron diffraction and neutron spectroscopic methods.

However, the synthesis of functionalized organoboron compounds remains a challenging issue because known reactions often require the use of highly reactive organometallic carbon nucleophiles.

This book presents a detailed study of the inter- and intramolecular reactions of carbonyl compounds with 1.6-enynes using gold (I) complexes. The lundurine products developed in this work show significant in vitro cytoxicity toward B16 melanoma cells.

This book describes a combination of orthogonal supramolecular interactions for the design of functional monolayer architectures on surfaces, that can be used as chemical and biosensors in a wide range of applications.

The winner of UCL's annual HEP thesis prize, this work analyzes data from the second flight of the Antarctica Impulsive Transient Antenna, a balloon-borne experiment that searches for radio signals originating from ultra-high energy neutrinos and cosmic rays.

In this key contribution to modern cosmic ray physics, the author presents fresh numerical code for modeling cosmic ray propagation, and sets out credible evidence for a new spectral component that could be generated by the destruction or decay of dark matter.

This outstanding thesis charts the links between a molecule's shape and its photochemical reactivity, which has highly truncated excited states radically different to those in ground-state chemistry. Its novel use of bichromophoric interactions is promising.

A superb introduction to the physics of enhancement cavities, this volume shares new insights in attosecond physics and frequency-comb spectroscopy, covering key research questions such as increasing the accuracy of attempts to measure cavity parameters.

Exploring the interface between economics and the emerging field of complexity science, this book offers the first comprehensive complex systems analysis of real-world ownership networks. Presents potent new tools for studying economic and corporate networks.

The book reports on the author's original work to address the use of today's state-of-the-art smartphones for human physical activity recognition.

This thesis describes the first detection of a nuclear transition that had been sought for 40 years, and marks the essential first step toward developing nuclear clocks. Still, they could potentially be outperformed by nuclear clocks, based on a nuclear transition instead of the atomic transitions employed to date.

These various compositional elements have the potential to inhibit cancer cell activity whilst doing no harm to healthy cells. In particular in glioma therapy, CAP could offer an innovative approach allowing specific cancer cell / tumor tissue inhibition without damaging healthy cells.