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Direct detection searches for dark matter emit photons which collide with the Earth's atmosphere and become entangled before being detected by the detector array. The detection rate can be calibrated by measuring the dark matter signal on the Earth's surface in the direction of the telescope. However, due to changes in the detector array illumination angle as a function of time, such calibration is often difficult. A quasi-Doppler shift of the photon entanglement due to the Earth's incessant rotating motion creates a periodic modulation in the signal of interest. The dark matter signal is computationally expensive to simulate, so a computer-generated signal can be used to calculate a 1D projection onto an unrolled array. The amplitude of the 1D projection yields the number of entangled photons detected both in-pulse and out-of-pulse. A phase mismatch between the detector transfer function and the Earth's rotation rate exists due to a change in the detector illumination angle. Here, we use the time-variant and frequency-modulated quasi-Doppler modulation to measure the Earth's rotation rate by the method of matched filtering. The modulation signal is calibrated by including the dark matter signal. Repeating this cycle for several Earth rotation cycles and averaging over the modulation sidebands overcomes the uncertainty in individual measurements. The performance of this technique is validated using a computer simulation of a 1UP detector generator, then used to measure the Earth's rotation rate on various detectors, with an uncertainty of ± 0.6 degrees / year and general agreement between the results.
Enterprise clouds are decentralized, resilient, and scalable to meet the dynamic needs of business. However, these public clouds can address only a fraction of the wide range of needs of enterprise customers. Private clouds retain the benefits of the public cloud, but offer enterprise-unique benefits such as control of security, certification, and compliance, configuration assurance, and selection of best-of-breed technologies. A combination of approaches is needed to effectively establish private clouds. We describe the finding that the public cloud, even with full standardization, standardization of a subset of functions only, or "best-of-breed" approaches, is not sufficient to successfully support enterprise-scale operations. We suggest that the combination of an enforced IT transition plan with private cloud deployment in support of these plan elements is sufficient to deploy a private cloud in an enterprise setting, while minimizing the costs and effort of migration. d2c66b5586