Intelligence Whistleblower Protections: In Brief

Intelligence whistleblowers are generally Intelligence Community (IC) employees or contractors who bring to light allegations of agency wrongdoings by, for example, disclosing information on such wrongdoings to congressional intelligence committees. Such disclosures can aid oversight of, or help curb misconduct within, intelligence agencies. However, intelligence whistleblowers could face retaliation from their employers for their disclosures, and the fear of such retaliation may deter whistleblowing. Congress and President Obama have taken measures to protect certain intelligence whistleblowers from retaliation, and thereby seemingly encourage these whistleblowers to disclose information on agency wrongdoing. These measures are the Intelligence Community Whistleblower Protection Act of 1998 (ICWPA), Presidential Policy Directive 19 (PPD-19), and Title VI of the Intelligence Authorization Act of 2014 (Title VI). Each of these measures details what disclosures fall within the scope of its protections, which generally include certain disclosures through government channels (e.g., disclosures to agency inspectors general or congressional intelligence committees). None of these measures protect against retaliation or potential criminal liability arising from disclosures to media sources. The ICWPA applies to both IC employees and contractors, whereas PPD-19 and Title VI appear to apply only to IC employees. The ICWPA is the oldest of the three intelligence whistleblower protections and, of the three, provides the least amount of protection to those falling within its scope. The ICWPA does not explicitly prohibit retaliation against IC whistleblowers. Rather, it outlines procedures through which whistleblowers can disclose to the congressional intelligence committees information on “urgent concerns,” such as violations of law or false statements to Congress. The ICWPA further contains no explicit mechanism for obtaining a remedy for retaliation stemming from disclosure of an urgent concern to Congress. It merely allows an IC whistleblower who has faced an adverse personnel action because he disclosed an urgent concern to the congressional intelligence committees to then use the ICWPA’s disclosure procedures to inform the committees of the retaliation. PPD-19, unlike the ICWPA, expressly prohibits an IC employee from taking an adverse personnel action or security clearance determination against another employee because of a protected disclosure. It additionally requires intelligence agencies to develop procedures for internally investigating, through agency Inspectors General, allegations of impermissible retaliation. After finding that impermissible retaliation has occurred, Inspectors General can recommend that agency heads take corrective action. When an employee has exhausted the internal review procedures that must be established under PPD-19, he can appeal to the Director of National Intelligence, who then has the discretion to convene a review panel. If it finds that improper retaliation occurred, the review panel can recommend that the agency head take remedial action. Title VI seemingly codifies, and expands upon, some of the protections of PPD-19. Its protections, and modes of enforcement, differ depending on the type of retaliation alleged. More specifically, Title VI’s protected disclosures and enforcement methods in the context of allegations of adverse personnel action are distinct from its protected disclosures and enforcement methods for allegations of adverse security clearance or information access determinations

Post-digital humanities: computation and cultural critique in the arts and humanities

Today we live in computational abundance whereby our everyday lives and the environment that surrounds us are suffused with digital technologies. This is a world of anticipatory technology and contextual computing that uses smart diffused computational processing to create a fine web of computational resources that are embedded into the material world. Thus, the historical distinction between the digital and the non-digital becomes increasingly blurred, to the extent that to talk about the digital presupposes an experiential disjuncture that makes less and less sense. Indeed, just as the ideas of “online” or “being online” have become anachronistic as a result of our always-on smartphones and tablets and widespread wireless networking technologies, so too the term “digital” perhaps assumes a world of the past

Quantum Spectra of Triangular Billiards on the Sphere

We study the quantal energy spectrum of triangular billiards on a spherical surface. Group theory yields analytical results for tiling billiards while the generic case is treated numerically. We find that the statistical properties of the spectra do not follow the standard random matrix results and their peculiar behaviour can be related to the corresponding classical phase space structure.Comment: 18 pages, 5 eps figure

Geometric phases and anholonomy for a class of chaotic classical systems

Berry's phase may be viewed as arising from the parallel transport of a quantal state around a loop in parameter space. In this Letter, the classical limit of this transport is obtained for a particular class of chaotic systems. It is shown that this ``classical parallel transport'' is anholonomic --- transport around a closed curve in parameter space does not bring a point in phase space back to itself --- and is intimately related to the Robbins-Berry classical two-form.Comment: Revtex, 11 pages, no figures

Runway grooving project at Chicago Midway Airport

Runway grooving project at Chicago Midway Airpor

Garment Construction

PDF pages: 4

A Developmental Model of Congenital Nystagmus

Purpose: Congenital nystagmus (CN) is a spontaneous oscillation of the eyes with an onset in the first few months of life. In 90% of affected children there is an associated underlying sensory defect (foveal hypoplasia, cone dysfunction, cataracts, etc.). In 10% no underlying visual defect can be found, and the nystagmus is labelled as ‘idiopathic’. CN appears to be a developmental anomaly of sensorimotor integration, as it is not have an onset later in infancy or beyond, but why such a wide variety of early onset visual defects should lead to life-long oscillation of the eyes is a mystery. Previous models have focussed on a systems level approach to explain how CN might be generated by known oculomotor circuits. We ask, instead, why CN might occur. Model: Our basic tenet is that infant visuomotor development is highly plastic during some early ‘critical’ period. A defect of foveal vision occurring during (and only during) this period leads to an anomalous connectivity in the oculomotor circuitry, which becomes permanent thereafter. We propose that circuitry normally used for precise foveal registration of a visual object (gaze holding, fixation, and smooth pursuit) develops to maintain some degree of image motion, as this would maximise contrast for a low spatial frequency system. However, this motion is in conflict with maintaining the image on the fovea (or its remnant). We explore the best oculomotor strategy to cope with this conflict. Results: The optimal strategy (in the least squares sense) is to oscillate the eyes in one meridian with alternating slow and quick (saccade) phases. Remarkably, the optimal waveform profile has an increasing-velocity profile. Many of the unique waveforms seen empirically in CN are also optimal strategies given realistic uncertainty in the initial position of a slow phase. Using non-linear dynamical systems analysis, we show that these ‘optimal’ oscillations have similar fractional correlation dimensions to observed data. We also show that a ‘null region’, as commonly observed in CN, would be an inevitable consequence of a velocity driven oculomotor system. Conclusions: We have developed a new approach to understanding oculomotor development, in which we examine the best strategy to maximise visual contrast. In a normal foveate visual system with fine oculomotor control, the best strategy is to develop good foveal registration, which we call ‘fixation’, and ‘smooth pursuit’. If, however, the fovea is absent or not being stimulated (eg. cataracts), the best strategy would be to develop oscillations of the type seen in CN. It implies that the chaotic oscillations are the result of a physiological developmental adaptive process. This is in contrast to the prevailing view that CN is a disease that can be ‘cured’. It is not surprising that CN has proven remarkably refractory to therapeutic intervention with only minimal (if any) long-term successes using drugs, surgery, or even biofeedback. We argue that CN is as adaptive and permanent as normal eye movements are in a normally sighted individual

Note on the helicity decomposition of spin and orbital optical currents

In the helicity representation, the Poynting vector (current) for a monochromatic optical field, when calculated using either the electric or the magnetic field, separates into right-handed and left-handed contributions, with no cross-helicity contributions. Cross-helicity terms do appear in the orbital and spin contributions to the current. But when the electric and magnetic formulas are averaged ('electric-magnetic democracy'), these terms cancel, restoring the separation into right-handed and left-handed currents for orbital and spin separately.Comment: 10 pages, no figure

Adaptive Quantum Measurements of a Continuously Varying Phase

We analyze the problem of quantum-limited estimation of a stochastically varying phase of a continuous beam (rather than a pulse) of the electromagnetic field. We consider both non-adaptive and adaptive measurements, and both dyne detection (using a local oscillator) and interferometric detection. We take the phase variation to be \dot\phi = \sqrt{\kappa}\xi(t), where \xi(t) is \delta-correlated Gaussian noise. For a beam of power P, the important dimensionless parameter is N=P/\hbar\omega\kappa, the number of photons per coherence time. For the case of dyne detection, both continuous-wave (cw) coherent beams and cw (broadband) squeezed beams are considered. For a coherent beam a simple feedback scheme gives good results, with a phase variance \simeq N^{-1/2}/2. This is \sqrt{2} times smaller than that achievable by nonadaptive (heterodyne) detection. For a squeezed beam a more accurate feedback scheme gives a variance scaling as N^{-2/3}, compared to N^{-1/2} for heterodyne detection. For the case of interferometry only a coherent input into one port is considered. The locally optimal feedback scheme is identified, and it is shown to give a variance scaling as N^{-1/2}. It offers a significant improvement over nonadaptive interferometry only for N of order unity.Comment: 11 pages, 6 figures, journal versio

Statistical Properties of Many Particle Eigenfunctions

Wavefunction correlations and density matrices for few or many particles are derived from the properties of semiclassical energy Green functions. Universal features of fixed energy (microcanonical) random wavefunction correlation functions appear which reflect the emergence of the canonical ensemble as the number of particles approaches infinity. This arises through a little known asymptotic limit of Bessel functions. Constraints due to symmetries, boundaries, and collisions between particles can be included.Comment: 13 pages, 4 figure