The "hard problem of consciousness"—specifically the question of "where" and "how" qualia are generated—remains without a definitive answer. While information processing models centered on the cerebral cortex dominate current neuroscience, the physical conditions necessary for the emergence of the "feeling itself" (the raw quality of experience) remain elusive, regardless of how refined the descriptions of computation or mental representation become. This paper posits that the persistence of this problem is largely due to a structural bias in research, which has focused disproportionately on the cortex because of its relative accessibility for measurement and analysis. Instead, this study directs its attention toward the Ventral Fourth Ventricle field (VFV)—a region where the brainstem reticular formation and cerebrospinal fluid (CSF) are in close proximity—as the central locus of qualia generation. The VFV is a region characterized by a unique physical environment within the brain, where the reticular formation, astrocytes, ependymal cells, and CSF function as an integrated unit. While deeply involved in arousal control, multisensory input, and autonomic functions, the VFV provides the specific conditions required for qualia to emerge. The present hypothesis (the VFV Hypothesis) proposes that qualia are not the result of high-level cortical computation, but rather a physical "field state" established through the superposition of multisensory information within a unified spatiotemporal cross-section in the brainstem. In the following sections, I will present the structural and evolutionary evidence supporting the VFV as the seat of qualia generation, and discuss the mechanism of its formation, the physical significance of the "cross-section" concept, and its functional roles in biological systems.