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The discourse of financialized capitalism tries to create a future predictable enough to manage risk for the wealthy, to shape the future into a profit-making site that constrains and privatizes the sense of what's possible. Here, people's hopes and meaning-making energies are policed through the burden of debt. In Trading Futures Filipe Maia offers a theological reflection on hope and the future, calling for escape routes from the debt economy. Drawing on Marxism, continental philosophy, and Latin American liberation theology, Maia provides a critical portrayal of financialization as a death-dealing mechanism that colonizes the future in its own image. Maia elaborates a Christian eschatology of liberation that offers a subversive mode of imagining future possibilities. He shows how the Christian vocabulary of hope can offer a way to critique the hegemony of financialized capitalism, propelling us in the direction of a just future that financial discourse cannot manage or control

Who baked the pie in the sky? Who sowed and harvested its fruits, gathered the ingredients and put it into the oven? And also: who paved heaven's streets of gold, crafted the trumpets of the cherubim, and erected God's throne? Albeit the ethereal tune that marks speculative questions of this nature, there is a profoundly concrete dimension implied in images such as these I just described. Heaven, paradise, kingdom of God: these are theological categories for a reality that demand a ground on which to stand: someone has to bake the pie – even in the sky. Heavenly hopes are intrinsically connected to historical paths in a symbiosis that knows no division.

Bragg coherent diffraction imaging is a powerful strain imaging tool, often limited by beam-induced sample instability for small particles and high power densities. Here, we devise and validate an adapted diffraction volume assembly algorithm, capable of recovering three-dimensional datasets from particles undergoing uncontrolled and unknown rotations. We apply the method to gold nanoparticles which rotate under the influence of a focused coherent x-ray beam, retrieving their three-dimensional shapes and strain fields. The results show that the sample instability problem can be overcome, enabling the use of fourth generation synchrotron sources for Bragg coherent diffraction imaging to their full potential. ; Research conducted at MAX IV, a Swedish national user facility, is supported by the Swedish Research council under Contract No. 2018-07152, the Swedish Governmental Agency for Innovation Systems under Contract No. 2018-04969, and Formas under Contract No. 2019-02496. This work has also received funding from the ÅForsk Foundation (Contract No. 17-408), the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation programme (Contract No. 801847), from the Olle Engkvist Foundation, from the Swedish Research council (Contract No. 2018-00234), and from NanoLund.