The Dyakonov–Voigt wave refers to a type of electromagnetic wave that propagates in a birefringent medium. This phenomenon is named after the researchers Mikhail Dyakonov and Ya. P. Voigt, who studied the behavior of waves in certain anisotropic materials. In a birefringent medium, the speed of light differs depending on the polarization state of the light and the direction of propagation.

A Scholte wave is a type of surface wave that propagates along the interface between a solid and a fluid, or through a solid that is in contact with a semi-infinite medium. Named after the Dutch physicist A. Scholte, these waves occur in situations where an elastic solid is in contact with a liquid or gas, such as the bottom of a body of water, and have applications in fields such as geophysics, materials science, and engineering.

The Goubau line is a type of transmission line that operates based on the principle of surface wave propagation. It is characterized by its ability to guide electromagnetic waves along its surface, making it particularly useful for microwave and millimeter-wave frequencies. The Goubau line consists of a single wire (or conductor) that is typically surrounded by a dielectric material, which allows for efficient energy transmission with minimal losses.

Surface growth refers to the process by which materials accumulate on the surface of a substrate or a previously existing layer. This concept is prevalent in various fields, including materials science, chemistry, biology, and physics. Here are some contexts in which surface growth is significant: 1. **Materials Science**: In this field, surface growth often pertains to processes like thin film deposition, where atoms or molecules are added to a substrate to create a layer.

Surface chemistry of paper refers to the study and understanding of the chemical properties and interactions occurring at the surface of paper materials. This area of research is vital because the surface characteristics of paper can significantly influence its functionality, printability, wettability, and interaction with various substances. ### Key Aspects of Surface Chemistry of Paper: 1. **Surface Composition**: - Paper is primarily made from cellulose fibers, which derive from wood pulp or other plant materials.

The Vroman effect refers to a phenomenon in immunology where different types of proteins or antibodies compete for binding sites on cell surfaces. Specifically, it describes how certain proteins, such as plasma proteins, adhere to a surface (like endothelial cells) and can be gradually replaced by other proteins that have a higher affinity for the binding sites or are present in higher concentrations. This effect is named after the scientist who first described it, and it highlights the dynamic nature of protein interactions within biological systems.

A tensiometer is an instrument used to measure the surface tension of liquids. Surface tension is the property of the liquid's surface that makes it behave like a stretched elastic membrane, which arises from the cohesive forces between liquid molecules.

The sea surface microlayer (SML) is the thin layer of water that resides at the air-sea interface, typically extending from the ocean surface down to about 1 millimeter (up to several millimeters in some cases). This layer is characterized by distinct physical, chemical, and biological properties when compared to the underlying water column.

A nanotextured surface refers to a surface that has been engineered to exhibit features or textures at the nanoscale, typically ranging from 1 to 100 nanometers in size. These surfaces often have unique physical and chemical properties due to their modified surface structure, which can significantly alter their interaction with different materials, liquids, and gases.

Entropy of mixing refers to the change in entropy that occurs when two or more substances (usually gases or liquids) are mixed together. It is a measure of the randomness or disorder that results from the combination of different components in a mixture. When two different substances are mixed, the number of possible arrangements or configurations of the molecules increases, leading to greater disorder. This increase in disorder contributes positively to the overall entropy of the system.

Liquid marbles are small droplets of liquid that are encapsulated in a hydrophobic (water-repelling) solid coating, which prevents the liquid from wetting the surface and allows it to behave like a small, discrete marble. This phenomenon is achieved by the process of coating the liquid droplet with a layer of solid particles such as hydrophobic powders (like hydrophobic silica, starch, or polymer beads), which cling to the droplet's surface.

The Lukasiewicz-Aglio Wettability Index, commonly referred to as the Lak Wettability Index, is a parameter used to quantify the wettability of porous media, especially in the context of petroleum engineering and reservoir characterization. Wettability refers to the ability of a fluid to maintain contact with a solid surface, usually in the presence of another immiscible fluid.

The International Association for Sports Surface Sciences (IASSS) is an organization focused on promoting research, development, and best practices related to sports surfaces. This includes various types of surfaces used in sports, such as natural grass, synthetic turf, and other materials. The organization brings together researchers, practitioners, and industry professionals to share knowledge, advancements, and innovations in the science of sports surfaces. IASSS is dedicated to improving the understanding of how different surfaces affect athletic performance, safety, and sustainability.

Interfacial rheology is the study of the mechanical properties and behavior of interfaces, typically between two immiscible phases, such as liquids, gases, or solids. This field focuses on how forces and deformations affect the interface and how the interfacial properties influence the overall behavior of the materials involved.

Hydrogel encapsulation of quantum dots refers to the process of incorporating quantum dots (QDs)—nanoscale semiconductor particles with unique optical and electronic properties—into a hydrogel matrix. Hydrogel is a three-dimensional network of hydrophilic polymer chains that can hold a large amount of water and is often used for various biomedical and technological applications.

The Hertz–Knudsen equation is a fundamental relationship in physical chemistry used to describe the evaporation and condensation of a substance in the context of phase transitions, particularly at the interface between a liquid and vapor or a solid and vapor. The equation provides a way to relate the pressure of a vapor in equilibrium with its liquid phase to the rate of evaporation and the molecular characteristics of the substance.

Helium-3 surface spin echo is a technique used primarily in the field of condensed matter physics to probe the properties of liquid helium-3 (³He) near surfaces, usually in the context of studies involving superfluidity and quantum phenomena. Helium-3 is notable because it is a fermionic isotope of helium, and it can exhibit superfluid behavior at very low temperatures.

Surface tension is a physical property of liquids that describes the elastic tendency of a fluid surface. It is the result of the cohesive forces between liquid molecules at the surface, which causes them to contract and minimizes the surface area. Surface tension is typically measured in units of force per unit length, often expressed in dynes per centimeter (dyn/cm) or newtons per meter (N/m). The values of surface tension can vary widely among different liquids.

The Du Noüy-Padday method is an experimental technique used to determine the surface tension of liquids. It is widely utilized in various fields, including chemistry, materials science, and biomedical applications. This method involves measuring the force required to detach a solid object, typically a ring or a drop, from the surface of a liquid. ### Key Points of the Du Noüy-Padday Method: 1. **Apparatus**: The apparatus typically includes a ring that is submerged in the liquid.

Disjoining pressure is a concept in physical chemistry and materials science that refers to the pressure difference across a thin film or interface due to molecular interactions and forces. It is particularly relevant in the study of thin liquid films, such as those found in emulsions, foams, or biological membranes. Disjoining pressure arises from three primary sources: 1. **Van der Waals Forces**: These are attractive forces that can cause thin films to collapse when the film thickness is reduced.