On-line digital computer control of the NERVA nuclear rocket engine

The problem of on-line digital computer control of the NERVA nuclear rocket engine is considered. Proposed is a method of State Dependent State Variable Feedback (SDSVF) as a practical approach to the control of NERVA and other complex nonlinear and/or time-varying systems. The difficulties inherent in other design methods are avoided by defining the optimal closed loop system in terms of a desired transfer function, rather than a performance index to maximize or minimize

Ablative resin Patent

Ablative resins used for retarding regression in ablative materia

Reinforced structural plastics

Reinforced polyimide structures are described. Reinforcing materials are impregnated with a suspension of polyimide prepolymer and bonded together by heat and pressure to form a cured, hard-reinforced, polyimide structure

Evolution of an Interprofessional Patient Skills Course with the Incorporation of Simulation Scenarios

A university level interprofessional patient care skills course including Nursing, Radiologic Sciences, and Respiratory Care students has evolved over 20 years. The course includes a lecture and laboratory portion with specific content and skills focused on principles common to the three disciplines. Students are placed in interprofessional groups during lab to practice and learn together including a simulation scenario on each week’s content. This educational strategy has enhanced the students’ teamwork and communication skills and prepared them to apply these skills to clinical practice. Further research is needed to look at IPE undergraduate healthcare course outcomes related to teamwork

Coherent exciton dynamics in a dissipative environment maintained by an off-resonant vibrational mode

This work was supported by the Leverhulme Trust (RPG-080) and the EPSRC (EP/G03673X/1).The interplay between an open quantum system and its environment can lead to both coherent and incoherent behavior. We explore the extent to which strong coupling to a single bosonic mode can alter the coherence properties of a two-level system in a structured environment. This mode is treated exactly, with the rest of the environment comprising a Markovian bath of bosonic modes. The strength of the coupling between the two-level system and the single mode is varied for a variety of forms for the bath spectral density in order to assess whether the coherent dynamics of the two-level system are modified. We find a clear renormalization of the site population oscillation frequency that causes an altered interaction with the bath. This leads to enhanced or reduced coherent behavior of the two-level system, depending on the form of the spectral density function. We present an intuitive interpretation, based on an analytical model, to explain the behavior.Publisher PDFPeer reviewe