Abstract: Disclosed embodiments provide for collaborative access to a distributed data structure. The disclosed embodiments include collaboration participant devices or instances that each represent a distributed data structure via a tree data structure. The collaboration participants perform operations on the distributed data structure and communicate these operations to each other via a serialization service. The tree structure maintained by each of the collaboration participants stores unacknowledged operations and also collaboration participant specific length information for collaboration participants. Once a particular operation has been acknowledged by each of the collaboration participants, this is communicated to all of the participants by the serialization service. The collaboration participants may then perform maintenance on a portion of the tree structure represented the acknowledged operation.

Abstract: An antenna comprising first and second antenna elements, a center conductor, and a dielectric. The first antenna element is configured to be electrically connected to an outer conductor of a coaxial cable. The center conductor is electrically connected to the second antenna element and configured to be electrically connected to an inner conductor of the coaxial cable. The dielectric is disposed around the center conductor so as to separate the center conductor from the first antenna element. The first antenna element is shaped to gradually surround the dielectric and the center conductor over a length of the first antenna element so as to form a balun, integrated into the first antenna element, that is configured to gradually transform an unbalanced signal in the coaxial cable to a balanced signal that is characteristic of a two-conductor transmission line.

Abstract: A dual-polarized tapered slot antenna (TSA) comprising: a dielectric bracket; a first pair of conductive blades mounted to the dielectric bracket so as to define a first tapered slot between edges of the conductive blades of the first pair thereby forming a horizontally-polarized TSA; a second pair of conductive blades mounted in the dielectric bracket orthogonal to the first pair so as to define a second tapered slot between edges of the conductive blades of the second pair thereby forming a vertically-polarized TSA; and wherein at least part of each of the slot-defining edges of the conductive blades has a thickness that is non-tapered and stepwise-reduced from the thickness of a remainder of the corresponding blade.

Abstract: A glass container for storing pharmaceutical formulations may include a glass body formed from a Type IA or Type IB glass composition according to ASTM Standard E438-92(2011). The glass body may include a wall portion with an inner surface and an outer surface, a heel portion and a floor portion, wherein the inner surface of the glass container is formed by the inner surface of the glass body. The glass body may include at least a class A2 base resistance or better according to ISO 695, at least a type HGB2 hydrolytic resistance or better according to ISO 719 and Type 1 chemical durability according to USP <660>. The glass container does not comprise a boron-rich layer on the inner surface of the glass body in as formed condition.

Abstract: A CVD process for depositing a silica coating is provided. The process includes providing a float glass ribbon in a float glass manufacturing process. The process also includes forming a gaseous mixture including a silane compound, oxygen, a fluorine-containing compound, and a radical scavenger. The gaseous mixture is directed toward and along the float glass ribbon and is reacted over the float glass ribbon to form the silica coating thereon. The silica coating comprises silicon dioxide.

Abstract: Disclosed embodiments provide for collaborative access to a distributed data structure. Operations such as inserting, deleting, and annotating are performed by various clients participating in the collaboration. A serialization service enforcing a single order of these operations and ensures the operations and order are communicated to all of the clients participating in the collaboration. Once all clients have acknowledged particular operations, this information is also communicated to all of the clients, such that the clients may perform maintenance activities on the collaboration data structures. The result is a rolling collaboration window shared by all of the clients of the collaboration, with a bottom of the collaboration window defined by a lowest ordered operation not yet acknowledged by all clients of the collaboration, and a highest ordered operation as assigned by the serialization service.

Abstract: Embodiments of the present disclosure are directed to coated glass articles which reduce glass particle formation caused by glass to glass contact in pharmaceutical glass filling lines.

Abstract: Glass pharmaceutical packages comprising glass containers are disclosed. In embodiments, a coated glass pharmaceutical package includes a glass container formed from one of a borosilicate glass composition that meets Type 1 criteria according to USP <660> or an alkali aluminosilicate glass having a Class HGA 1 hydrolytic resistance when tested according to the ISO 720-1985 testing standard. A lubricous coating may be positioned on at least a portion of the exterior surface of the glass container. The portion of the coated glass pharmaceutical package with the lubricous coating has a coefficient of friction that is at least 20% less than an uncoated glass container formed from the same glass composition. A horizontal compression strength of the portion of the coated glass pharmaceutical package with the lubricous coating may be at least 10% greater than an uncoated glass container formed from the same glass composition.

Abstract: A gas barrier material includes an atomic sheet, such as graphene and/or an analog of graphene. The gas barrier material can be arranged as part of a component, such as a container or other vessel, to limit the flow or permeation of gas through the component. Where the component is a container or part of a container, the gas barrier material may be formulated and arranged to limit or prevent gas ingress or egress with respect to the internal volume of the container. The atomic sheet offers improved gas barrier properties compared to traditional polymeric barrier materials and is particularly useful in applications where it is desired to limit permeation of small gas molecules such as helium, such as airships or other lighter than air vehicles.

Abstract: Techniques for displaying baking information regarding an oven are provided herein. For example, one or more embodiments described herein can comprise a system. The system can comprise a memory that can store computer executable components. The system can further comprise a processor, which can be operably coupled to the memory, that can execute the computer executable components stored in the memory. Also, the computer executable components can comprise an imaging component that can generate one or more images based on baking information regarding an oven. Further, the computer executable components can comprise a display component that displays the image.

Abstract: A method of mass-producing one-way luminescent projectiles includes providing projectiles each including a body having a nose and a trailing end including a perimeter edge and a rear surface, and that is symmetrical about an axis that extends centrally through the body from the nose to the rear surface, securing the projectiles in a nose down, trailing end up orientation leaving the rear surfaces exposed, depositing a quantity of a hardenable photoluminescent material centrally on each rear surface, the quantities being identical and hardening over a period of time, and maintaining the projectiles in the nose down, trailing end up orientation during the period of time such that each quantity of photoluminescent material forms an identical solid photoluminescent body adhered to the respective rear surface, that is concentric with, and extends outwardly no further than, the perimeter edge, and radially symmetrical relative to the axis.

Abstract: Certain embodiments described herein are directed to devices and system that can be used to fill a sample cell. In some examples, the system can be configured with a pressure device configured to provide a negative pressure to accelerate filling of the cell with the sample. In some embodiments, the negative pressure can be used to fill a flow cell at a selected fill rate.

Abstract: One or more techniques regarding an atmosphere controlling manifold are provided. For example, one or more embodiments can regard a manifold that can comprise a first channel connected to a first inlet port. The manifold can also comprise a second channel connected to second inlet port. Further, the manifold can comprise a third channel connecting the first channel, the second channel, and an outlet port. Additionally, the manifold can comprise a valve connected to the third channel and regulating fluid communication through the third channel. Moreover, the first channel, the second channel, and third channel can be defined within a body of the manifold.

Abstract: A delamination resistant glass pharmaceutical container may include a glass body comprising a borosilicate glass having a Type 1 chemical durability according to USP <660>. At least an inner surface of the glass body may have a delamination factor less than or equal to 10. A thermally stable coating may be positioned around at least a portion of the outer surface of the glass body. The thermally stable coating may be an outermost coating on the outer surface of the glass body and the outer surface of the glass body with the thermally stable coating has a coefficient of friction less than or equal to 0.7. The thermally stable coating comprising at least one of a metal nitride coating, a metal oxide coating, a metal sulfide coating, SiO2, diamond-like carbon, graphene, and a carbide coating.

Abstract: Disclosed herein are delamination resistant glass pharmaceutical containers which may include an aluminosilicate glass having a Class HGA 1 hydrolytic resistance when tested according to ISO 720-1985 testing standard. The glass containers may also have a compressive stress layer with a depth of layer of greater than 25 ?m. A surface compressive stress of the glass containers may be greater than or equal to 350 MPa. The delamination resistant glass pharmaceutical containers may be ion exchange strengthened and the ion exchange strengthening may include treating the delamination resistant glass pharmaceutical container in a molten salt bath for a time less than or equal to 5 hours at a temperature less than or equal to 450° C.

Abstract: A keel attached to a central body of trolling spreader bar is configurable with a plurality of fishing lures as an assembly to mimic a small school of fish. The keel is angled to urge the lure assembly continually to one side or the other from what would be the normal straight line of travel of a trolling vessel. By attaching an angled keel directly to the lure/spreader bar one is able to easily set lines behind the vessel at varying angles and distances which greatly increase the width of the full trolling lure spread.

Abstract: According to embodiments, a method of making a coated pharmaceutical container, may include: forming a glass tube; forming the glass tube into a pharmaceutical container comprising an interior surface and an exterior surface; and applying a coating to the exterior surface. The coating may have a coefficient of friction less than or equal to 0.7 relative to a second pharmaceutical container when tested in a vial-on-vial testing jig under a normal load of 30 N. The coated pharmaceutical container may be thermally stable after depyrogenation at a temperature of at least 260° C. for 30 minutes in air.

Abstract: Disclosed embodiments provide for collaborative access to a distributed data structure. The disclosed embodiments include collaboration participant devices or instances that each represent a distributed data structure via a tree data structure. The collaboration participants perform operations on the distributed data structure and communicate these operations to each other via a serialization service. The tree structure maintained by each of the collaboration participants stores unacknowledged operations and also collaboration participant specific length information for collaboration participants. Once a particular operation has been acknowledged by each of the collaboration participants, this is communicated to all of the participants by the serialization service. The collaboration participants may then perform maintenance on a portion of the tree structure represented the acknowledged operation.

Abstract: Various implementations include approaches for demonstrating wearable audio device capabilities. In particular aspects, a computer-implemented method of demonstrating a feature of a wearable audio device includes: receiving a command to initiate an audio demonstration mode at a demonstration device; initiating binaural playback of a demonstration audio file at wearable playback device being worn by a user and initiating playback of a corresponding demonstration video file at a video interface coupled with the demonstration device; receiving a user command to adjust a demonstration setting at the demonstration device to emulate adjustment of a corresponding setting on the wearable audio device; and adjusting the binaural playback at the wearable playback device based upon the user command.

Abstract: Embodiments of the present disclosure are directed to coated glass articles which reduce glass particle formation caused by glass to glass contact in pharmaceutical glass filling lines.