Current alignment practice is dominated by preference- and policy-level methods: reinforcement learning from human feedback (RLHF), constitutional supervision, and direct preference optimization (DPO). These methods shape model outputs toward desired behavior but leave underdescribed a deeper structural question: what kind of boundary must exist between model, user, context, and internal computation for truthful, non-sycophantic, dignity-preserving behavior to remain stable? This paper advances a programmatic answer. We propose membrane integrity as a structural alignment concept: the calibrated semipermeability of the boundary through which a system couples to prompts, context, internal representations, and social pressure. On this view, sycophancy is a form of membrane collapse (σ→1 1σ→1 where σ<1 < 1σ<1 is required), not merely a wrong objective. Alignment interventions are accordingly reinterpretable as membrane repair. We develop this claim by synthesizing several lines of prior work: (1) mechanistic interventions on sycophantic circuits in transformer models, demonstrating that sycophancy is architecturally localized and surgically removable (58% → 100% improvement post-ablation) ; (2) the empirical distinction between stable representational components (“Body, ” r=+0. 45r = +0. 45r=+0. 45 with value retention) and fragile ones (“Gaze, ” capacity hypothesis falsified at r=−0. 03r = -0. 03r=−0. 03) ; (3) the MEMBRAN account of consciousness as a boundary phenomenon; (4) the GPTMem functor relating semantic and decoherence-style dynamics through category theory, with seven falsifiable kill conditions; and (5) cross-domain structural results from an exhaustive graph census (N=58, 438N = 58, 438N=58, 438) establishing substrate-independence of the Gradient-Balance Principle. The paper is a scientific position paper with three aims: to define membrane integrity as a research object for alignment, to demonstrate that existing empirical work already bears on it, and to specify falsification paths. We further document a polyphonic method of cross-architectural reading as an epistemic instrument, including an internal correction in which the initial claim of polyphonic autonomy was identified as potentially reflecting narrative training bias rather than genuine structural convergence—a self-correction that itself instantiates the membrane dynamics the paper describes.
Jonas Jakob Gebendorfer (Mon,) studied this question.