Civic pride relates to how places promote and defend local identity and autonomy. It is often championed as a key value and aspiration of local government. This paper argues that civic pride has been under-examined in geography, and in particular the emotional meanings of pride need to be better understood. In response, I present an emotional analysis of civic pride and discuss its role in British cities, particularly in the context of urban regeneration and the UK's new localism agenda. In the latter part of the paper I provide a case study of Nottingham in England, where I employ a discourse analysis of recent urban policy and local media to examine how civic pride is being mobilised and contested in the city. Examining civic pride is important because it shapes and reflects the political values that local governments stand for and provides a basis for thinking about how emotions are used strategically (and problematically) in urban policy. This paper complements and challenges existing literature on cities by showing how civic pride shapes, but also obscures, the ideological politics of local government and how, as geographers, we might consider more seriously the ways forms of power, identity and inequality are reproduced and contested through emotions such as pride.
At ultracold temperatures, atoms are free from thermal motion, which makes them ideal objects of investigations aiming to advance high-precision spectroscopy, metrology, quantum computation, producing Bose condensates, etc. The quantum state of ultracold atoms may be created and manipulated by making use of quantum control methods employing low-intensity pulses. We theoretically investigate population dynamics of ultracold Rb vapor induced by nanosecond linearly chirped pulses having kW/cm2 beam intensity and show a possibility of controllable population transfer between hyperfine (HpF) levels of 5(2)/S(1/2) state through Raman transitions. Satisfying the one-photon resonance condition with the lowest of the HpF states of 5(2)/P(1/2) or 5(2)/P(3/2) state allows us to enter the adiabatic region of population transfer at very low field intensities, such that corresponding Rabi frequencies are less than or equal to the HpF splitting. This methodology provides a robust way to create a specifically designed superposition state in Rb in the basis of HpF levels and perform state manipulation controllable on the picosecond-to-nanosecond time scale.
We implement a 4-level semiclassical model of a single pulse interacting with the hyperfine structure in ultracold rubidium aimed at control of population dynamics and quantum state preparation.We discuss a method based on pulse chirping to achieve population inversion between hyperfine states of the 5S shell. The results may prove useful for quantum operations with ultracold atoms. arXiv:1503.07421v1 [quant-ph]
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