Abstract: A device including a chip including a photonic integrated circuit comprising an external cavity for a source of electromagnetic radiation; the source of electromagnetic radiation attached to a top surface of the chip, the source comprising a semiconductor active region comprising, or coupled to, an output for the electromagnetic radiation, wherein the output is oriented to emit the electromagnetic radiation into the top surface in an emission direction that is inclined with respect to a plane of propagation of the electromagnetic radiation in the external cavity; and a coupler coupling the active region to the external cavity via the top surface to integrate the external cavity with the active region. The coupler partially couples the electromagnetic radiation outputted from the active region to the external cavity, and feedback from the external cavity to the active region.

Abstract: Methods of using sorbents to enhance the production of hydrogen from fuel, and related systems, are generally described. In some embodiments, the production of hydrogen from the fuel involves a reforming reaction and/or a gasification reaction combined with a water-gas shift reaction.

Abstract: A method for absolute quantification of nitrosamines without using standards is disclosed. The method involves reducing nitrosamines to hydrazines and coulometric mass spectrometric (CMS) quantitation is then applied to quantify the hydrazines, thus quantifying their precursor nitrosamines, as the reduction yields can be measured by mass spectrometry (MS).

Abstract: Embodiments disclosed herein provides a method for mitigating an interference signal in a multi-lane interconnect. The method includes transmitting, by a first device (101), a first signal using a MLD (504) to a second device (103) on a first transmission line of the multi-lane interconnect between the first device (101) and the second device (102). The method includes receiving a second signal transmitted from the second device (102) on the first transmission line while simultaneously transmitting the first signal to the second device (102) on the first transmission line. Further, the method includes adjusting the plurality of impedances such that an input impedance (Zin) seen into the first device from the first transmission line matches the characteristic impedance (Z0) of the first transmission line. One or more transconductance cells or driver cells in the RD are tuned for cancellation or suppression of interference signals at a RFE (505) input.

Abstract: Polymeric mist control materials, methods of forming polymeric mist control materials, and methods of using such materials for mist control are provided. The polymeric mist control additives are formed of molecules comprised predominantly of monomers that confer high solubility in fuel and include associative groups that attract each other in donor-acceptor manner, and are incorporated such that multiple associative groups are in close proximity (“clusters”), such that the clusters are separated by very long non-associative sequences.

Abstract: Systems and methods in accordance with various embodiments of the invention enable communicating using nested Low Density Parity Check (LDPC) codes. A nested LDPC code is an LDPC code having a full blocklength, where shorter blocklengths of the nested LDPC code can be utilized as shorter blocklength LDPC codes. In certain embodiments, a transmitter utilizes a nested LDPC code to communicate via a point-to-point connection. In several embodiments, multiple transmitters utilize nested LDPC codes to communicate simultaneously via a Random Access Channel. One embodiment includes a transmitter capable of encoding a message as symbols using a nested LDPC code until a feedback message indicating an end of epoch message is received. A receiver can determine whether a decoding rule is satisfied at predetermined decode times and transmit an end of epoch message when the decoder can decode a message based upon the nested LDPC code.

Abstract: The present invention relates to in vivo methods for modeling tumor formation and/or tumor evolution comprising the use of eukaryotic cells in which one or more genetic target locus has been altered by the CRISPR/Cas system, and which cells are transplanted in non-human eukaryote as a model system for tumor formation and tumor evolution. In particular in vivo genetic screening methods for identifying genes involved in tumorigenesis and metastasis are disclosed. The invention further relates to kits and components for practicing the methods, as well as materials obtainable by the methods, in particular tumor and metastasis samples and cells or cell lines derived therefrom. The invention also relates to diagnostic and therapeutic methods derived from the information obtained in the modeling methods.

Abstract: A method for forming a composite substrate containing layers of dissimilar materials is provided. The method includes a step of disposing a release layer over a base substrate where the base substrate is composed of a first material. A template layer is attached to the release layer. Characteristically, the template layer is composed of a second material and adapted to form a compound semiconductor device thereon.

Abstract: A high temperature superconductor (HTS) cable includes at least one HTS tape stack extending along a length of the HTS cable; and at least one optical fiber extending along the HTS cable. The at least one optical fiber has a plurality of gratings spaced apart from one another along the length of the HTS cable to detect a quench of the at least one HTS tape stack.

Abstract: Methods for more secure mobile network communications are disclosed. Specifically, details involving natural language processing (NLP) based auto formal modeling of protocols and specifications with large language models (NLP) are provided. Methods for formal and fuzzing amplification for fuzz testing to detect vulnerabilities are also disclosed. Furthermore, solutions are provided to identified vulnerabilities in existing 5G infrastructures. Also disclosed is a digital twin fuzzing framework.

Abstract: Various aspects described herein relate to electrochemical devices, e.g., for separation of one or more target organic or inorganic molecules (e.g., charged or neutral molecules) from solution, and methods of using the same. In particular embodiments, the electrochemical devices and methods described herein involve at least one redox-functionalized electrode, wherein the electrode comprises an immobilized redox-species that is selective toward a target molecule (e.g., charged molecule such as ion or netural molecule). The selectivity is based on a Faradaic/redox-activated chemical interaction (e.g., directional hydrogen binding) between the oxidized state of the redox species and a moiety of the target molecule (e.g., charged molecule such as ion or netural molecule).

Abstract: The disclosure provides methods of detecting a cannabinoid or metabolite thereof in a sample and test kits for the same. For example, the cannabinoid such as tetrahydrocannabinol (THC) bound to bovine serum albumin (BSA) may induce changes in optical properties of an optical biosensor employed for the said detection wherein the optical biosensor is immobilized with a suitable bioreceptor or through interactions with a bioreceptor-nanoparticle conjugate.

Abstract: Methods for more secure mobile network communications are disclosed. Specifically, details involving natural language processing (NLP) based auto formal modeling of protocols and specifications with large language models (NLP) are provided. Methods for formal and fuzzing amplification for fuzz testing to detect vulnerabilities are also disclosed. Furthermore, solutions are provided to identified vulnerabilities in existing 5G infrastructures. Also disclosed is a digital twin fuzzing framework.

Abstract: A construction system for mechanical metamaterials based on discrete assembly of a finite set of modular, mass-produced parts. A modular construction scheme enables a range of mechanical metamaterial properties to be achieved, including rigid, compliant, auxetic and chiral, all of which are assembled with a consistent process across part types, thereby expanding the functionality and accessibility of this approach. The incremental nature of discrete assembly enables mechanical metamaterials to be produced efficiently and at low cost, beyond the scale of the 3D printer. Additionally, a lattice structure constructed of two or more rigid, compliant, auxetic and chiral part types enable the creation of heterogenous macroscopic metamaterial structures.

Abstract: An optical imaging system includes a first lens group, a second lens group, a third lens group, and a fourth lens group sequentially disposed in ascending numerical order along an optical axis of the optical imaging system away from an object side of the optical imaging system toward an imaging plane of the optical imaging system, at least one lens group among the first to fourth lens groups being configured to be movable along the optical axis; and a reflective member disposed on an object side of the first lens group and including a reflective surface configured to change an optical path, wherein the first lens group has a positive refractive power, and 0.45?fG1/L?0.8 is satisfied, where fG1 is a focal length of the first lens group, and L is a distance from an object-side surface of the reflective member to the imaging plane.

Abstract: Fermions are the building blocks of matter. Here, we disclose a robust quantum register composed of hundreds of fermionic atom pairs trapped in an optical lattice. With each fermion pair forming a spin-singlet, the qubit is realized as a set of near-degenerate, symmetry-protected two-particle wavefunctions describing common and relative motion. Degeneracy is lifted by the atomic recoil energy, which depends on mass and lattice wavelength, thereby rendering two-fermion motional qubits insensitive to noise of the confining potential. The quantum coherence can last longer than ten seconds. Universal control is provided by modulating interactions between the atoms. Via state-dependent, coherent conversion of free atom pairs into tightly bound molecules, we tune the speed of motional entanglement over three orders of magnitude, yielding 104 Ramsey oscillations within the coherence time.

Abstract: A semiconductor device having relatively linear and constant parasitic capacitance of an operation range includes a first component having a negatively charged carrier channel and a second component comprising a positively charged carrier channel. The first component has source terminal and a drain terminal. The second component has bias terminal. Both components share a gate terminal that is electrostatically coupled to the negatively charged carrier channel of the first component and the positively charged carrier channel of the second component to produce a capacitance profile that stays relatively linear and constant as a voltage at the gate terminal changes.

Abstract: Disclosed are a differential dark-field confocal microscopic measurement apparatus and method based on a polarized vector light beam. The apparatus includes a vector polarized illumination light generation module, a light beam scanning illumination module and a differential dark-field confocal imaging module; a half wave plate and a vortex wave plate are regulated to generate radially polarized signal light and azimuthally polarized signal light respectively, and an acousto-optic modulator is controlled to modulate light beams into a pulse form, so that the radially polarized signal light and the azimuthally polarized signal light alternately illuminate during the same period, both of which have a time occupation ratio of 50%, separately.

Abstract: Provided are formulations and methods for treating one or more genitourinary conditions. The formulations may include a therapeutic agent that includes a calcium channel blocker, a rho kinase inhibitor, or a combination thereof. The methods may include locally administering a therapeutic agent into a ureter. Systems for delivering a therapeutic agent also are provided.

Abstract: Systems and methods are provided for imaging of soft and hard tissues with ultrasound. Such systems and methods can provide for non-contact and quantitative ultrasound images of bone and soft tissue. A method for imaging a biological body segment of soft and hard tissues includes setting geometry and material properties according to a model of the biological body segment to thereby generate a simulated time series data set. The method further includes collecting reflective and transmissive time series data of the biological body segment to thereby form an experimental time series data set and minimizing a difference between the simulated time series data set and the experimental time series data set, thereby imaging the biological body segment. Regularizing travel-time and/or using full waveform tomographic techniques with level set methods enable recovery of cortical bone geometry.