193 research outputs found
Noriega v. Activision/Blizzard: The First Amendment Right to Use a Historical Figure\u27s Likeness in Video Games
Panama’s former dictator, Manuel Noriega, recently sued Activision Blizzard in the California Superior Court for using his likeness and image in the popular video game “Call of Duty: Black Ops II.” In his complaint, Noriega alleged that the use of his likeness violated his right of publicity. Former New York Mayor, Rudy Giuliani, came to Activision’s defense, and filed a motion to dismiss, which was granted. In granting Activision’s motion, the court held that Activision’s use of Noriega’s likeness was transformative and did not violate his right of publicity. This Issue Brief argues that the California Superior Court should not have applied the transformative use test but should have held that Manuel Noriega did not have a right of publicity for his place in Panama’s history
To Serve, Educate, Unify, and Organize : The Black Panthers\u27 Free Breakfast Program and COINTELPRO in the United States, 1968-1971
The creation of the Black Panther Party’s Free Breakfast for Schoolchildren marked a shift away from the community defense origins of the Party, focusing more on community outreach and unification. The social and political implications of the Program – expanded interest by black and white moderates, and growing popularity of the party in general – made the breakfasts and the Party targets for the FBI’s Counter-Intelligence Program (COINTELPRO.) With the end goal of neutralizing the Panthers in mind, the FBI had a prime target to focus this work in the Breakfast Program
Systematic and Cell Type-Specific Telomere Length Changes in Subsets of Lymphocytes.
Telomeres, the protective DNA-protein complexes at the ends of linear chromosomes, are important for genome stability. Leukocyte or peripheral blood mononuclear cell (PBMC) telomere length is a potential biomarker for human aging that integrates genetic, environmental, and lifestyle factors and is associated with mortality and risks for major diseases. However, only a limited number of studies have examined longitudinal changes of telomere length and few have reported data on sorted circulating immune cells. We examined the average telomere length (TL) in CD4+, CD8+CD28+, and CD8+CD28- T cells, B cells, and PBMCs, cross-sectionally and longitudinally, in a cohort of premenopausal women. We report that TL changes over 18 months were correlated among these three T cell types within the same participant. Additionally, PBMC TL change was also correlated with those of all three T cell types, and B cells. The rate of shortening for B cells was significantly greater than for the three T cell types. CD8+CD28- cells, despite having the shortest TL, showed significantly more rapid attrition when compared to CD8+CD28+ T cells. These results suggest systematically coordinated, yet cell type-specific responses to factors and pathways contribute to telomere length regulation
Fault-Tolerant Connection of Error-Corrected Qubits with Noisy Links
One of the most promising routes toward scalable quantum computing is a modular approach. We show that distinct surface code patches can be connected in a fault-tolerant manner even in the presence of substantial noise along their connecting interface. We quantify analytically and numerically the combined effect of errors across the interface and bulk. We show that the system can tolerate 14 times higher noise at the interface compared to the bulk, with only a small effect on the code’s threshold and subthreshold behavior, reaching threshold with ~1% bulk errors and ~10% interface errors. This implies that fault-tolerant scaling of error-corrected modular devices is within reach using existing technology.</p
Mid-infrared quantum optics in silicon
Applied quantum optics stands to revolutionise many aspects of information
technology, provided performance can be maintained when scaled up. Silicon
quantum photonics satisfies the scaling requirements of miniaturisation and
manufacturability, but at 1.55 m it suffers from unacceptable linear and
nonlinear loss. Here we show that, by translating silicon quantum photonics to
the mid-infrared, a new quantum optics platform is created which can
simultaneously maximise manufacturability and miniaturisation, while minimising
loss. We demonstrate the necessary platform components: photon-pair generation,
single-photon detection, and high-visibility quantum interference, all at
wavelengths beyond 2 m. Across various regimes, we observe a maximum net
coincidence rate of 448 12 Hz, a coincidence-to-accidental ratio of 25.7
1.1, and, a net two photon quantum interference visibility of 0.993
0.017. Mid-infrared silicon quantum photonics will bring new quantum
applications within reach.Comment: 8 pages, 4 figures; revised figures, updated discussion in section 3,
typos corrected, added referenc
Building a Better Orono Together: Cultivating Organic Community Connection with University and Orono Stakeholders Final Report
Final report for POS 364-365 Practicum in Engaged Policy Studies I and II with Professor Robert Glover, University of Maine
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