Abstract: Game-specific screen share features can be provided to viewers of a video game livestream. The viewers can control a themed or adaptive cursor presented to the gamer during gameplay, and can also provide themed or adaptive sentiment-based reactions to the gamer during gameplay. The cursor and reactions can then be surfaced to the gamer a number of ways and can even be tied back into the game execution environment itself.

Abstract: A system and method for selecting a trajectory within the brain for placement of a stimulation probe for deep brain stimulation (DBS) treatment of an individual afflicted with an illness, condition, or disorder. Electrophysiological data attained within the brain of the individual is utilized with clinically determined regions of stimulation (for example, volume of tissue activated (VTA)) of other similarly-afflicted individuals having a positive operative outcome to assign an objective score, independent of anatomical structure (for example, not constrained within the subthalamic nucleus (STN)) to facilitate selection among prospective trajectories for placement of the stimulation probe during DBS.

Abstract: A photon multiplying material containing a luminescent material having organic semiconductor molecules capable of singlet fission attached thereto, wherein the organic semiconductor molecules are chemically attached to the luminescent material by a linking group and wherein the linking group and the band gap of the luminescent material are selected so that exciton triplet states formed by singlet fission in the attached organic semiconductor molecules can be energy transferred into the luminescent material.

Abstract: A photovoltaic device and method utilizing a light harvesting device and a photovoltaic cell; wherein the light harvesting device includes an organic semiconductor photoactive layer capable of multiple exciton generation with a luminescent material dispersed therein; wherein the bandgap of the luminescent material is selected such that the triplet excitons, formed as a result from the multiple exciton generation in the organic semiconductor, can be transferred from the organic semiconductor into the luminescent material non-radiatively via Dexter Energy Transfer; a photovoltaic cell disposed in an emissive light path of the luminescent material and having a first photoactive layer, wherein the bandgap of the luminescent material matches or is higher than the bandgap of the first photoactive layer.

Abstract: A photon multiplying material includes a first organic semiconductor, a luminescer and a light harvesting material wherein the light harvesting material has a bandgap which provides that exciton states formed in the light harvesting material by absorbance of light can be energy transferred to the first organic semiconductor and the luminescer has a bandgap which provides that triplet exciton states formed in the first organic semiconductor can be energy transferred into the luminescer; and wherein at least one of the first organic semiconductor and the light harvesting material is capable of singlet fission.

Abstract: A photon multiplying film comprises a first organic semiconductor, a luminescer and a light harvesting material wherein the light harvesting material has a bandgap which provides that exciton states formed in the light harvesting material by absorbance of light can be energy transferred to the first organic semiconductor and the luminescer has a bandgap which provides that triplet exciton states formed in the first organic semiconductor can be energy transferred into the luminescer; and wherein at least one of the first organic semiconductor and the light harvesting material is capable of singlet fission.

Abstract: A photon multiplying material comprising a luminescent material having organic semiconductor molecules capable of singlet fission attached thereto, wherein the organic semiconductor molecules are chemically attached to the luminescent material by a linking group and wherein the linking group and the band gap of the luminescent material are selected so that exciton triplet states formed by singlet fission in the attached organic semiconductor molecules can be energy transferred into the luminescent material.

Abstract: There is provided a ternary photon multiplier film. The photon multiplier film comprises an organic semiconductor material capable of multiple exciton generation and a luminescent material in a host material, wherein the bandgap of the luminescent material is selected such that the triplet excitons formed as a result from the multiple exciton generation in the organic semiconductor can be energy transferred into the luminescent material.

Abstract: Systems and methods described herein are directed to a template based deployment system providing settings across platform and physical infrastructures. The infrastructure can involve a server, storage, and a network. The platform can include various types of operating systems. A management server may be configured to manage various system elements, server virtualization and platform deployment. The management server may use policies based on a platform template, server profile, host storage profile, and host network profile. Infrastructure configurations may be determined by the management server, according to the platform type, and platform option settings in the platform template. The management server deploys the infrastructure and platform on top of the infrastructure using platform template and images.

Abstract: A photovoltaic device comprising a light harvesting device and a photovoltaic cell; wherein the light harvesting device comprises an organic semiconductor photoactive layer capable of multiple exciton generation with a luminescent material dispersed therein; wherein the bandgap of the luminescent material is selected such that the triplet excitons, formed as a result from the multiple exciton generation in the organic semiconductor, can be transferred from the organic semiconductor into the luminescent material non-radiatively via Dexter Energy Transfer; a photovoltaic cell disposed in an emissive light path of the luminescent material and having a first photoactive layer, wherein the bandgap of the luminescent material matches or is higher than the bandgap of the first photoactive layer.

Abstract: Systems and methods described herein are directed to a template based deployment system providing settings across platform and physical infrastructures. The infrastructure can involve a server, storage, and a network. The platform can include various types of operating systems. A management server may be configured to manage various system elements, server virtualization and platform deployment. The management server may use policies based on a platform template, server profile, host storage profile, and host network profile. Infrastructure configurations may be determined by the management server, according to the platform type, and platform option settings in the platform template. The management server deploys the infrastructure and platform on top of the infrastructure using platform template and images.