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Ausgangspunkt meiner Interpretation ist die der "Vertreibung" vorangehende Romantrilogie Robert Menasses; der Autor scheint nämlich eine ausgesprochene Vorliebe für Inversionen zu besitzen. Die sogenannte "Trilogie der Entgeisterung" umfasst neben "Sinnliche Gewißheit" (1988) die Romane "Selige Zeiten, brüchige Welt" (1991) und "Schubumkehr" (1995) sowie das in "Selige Zeiten, brüchige Welt" thematisierte und von Menasse anschließend selbst verfasste philosophische Werk der Romanfigur Leo Singer, die "Phänomenologie der Entgeisterung. Geschichte des verschwindenden Wissens" (1995). In der Trilogie wird mit der "Rückentwicklung […] vom 'Absoluten Wissen' […] zur 'Sinnlichen Gewißheit'" nicht nur die Inversion von Hegels "Phänomenologie des Geistes" (1807) vollzogen, sondern auch der "klassische Entwicklungsroman" wird in der Weise umgekehrt, dass das Individuum "eine Anlage nach der anderen, ein Talent nach dem anderen, eine Fähigkeit nach der anderen" verliert, bis es schließlich "eine verkümmerte Existenz" geworden ist. Meine Hypothese ist, dass auch im Falle der Vertreibung der Struktur des Romans zwei Inversionen zu Grunde liegen und dass hier ebenfalls eine prominente philosophische Vorlage von Relevanz ist, nämlich Walter Benjamins Essay "Über den Begriff der Geschichte" (1942).
We apply seismic full waveform inversion to SH‐ and Love‐wave data for investigating the near‐surface lithology at an archaeological site. We evaluate the resolution of the applied full waveform inversion algorithm through ground truthing in the form of an excavation and sediment core studies. Thereby, we investigate the benefits of full waveform inversion in comparison with other established methods of near‐surface prospecting in terms of resolution capabilities and interpretation security. The study is performed in a presumed harbour area of the ancient Thracian city of Ainos. The exemplary target is the source of a linear magnetic anomaly oriented perpendicular to the coast, which was found in a previous magnetic gradiometry survey, suggesting a mole. The SH‐wave full waveform inversion recovered a subsurface SH‐wave velocity model with submeter resolution showing lateral and vertical velocity variation between 40 and 150 m/s. To tame the non‐linearity of the full waveform inversion, a sequential inversion of frequency bands has to be combined with time‐windowing in order to separate the Love wave from the reflected SH wavefield. We compare the full waveform inversion results with multichannel analysis of surface waves, standard seismic reflection imaging, electrical resistivity tomography and electromagnetic induction. It turns out that the respective depth sections are correlated to a certain degree with the full waveform inversion results. However, the structural resolution of the other geophysical methods is significantly lower than for the full waveform inversion. An exception is the reflection seismic imaging, which shows the same resolution as full waveform inversion but can only be interpreted together with the full waveform inversion–based velocity model. An archaeological excavation as well as coring data allows ground truthing and a direct understanding of the geophysical structures. The results show that the target was a sort of near‐surface trench of about 3–4 m width and 0.8 m to 1.0 m depth, filled with silty sediment, which differs from the layered surrounding in colour and composition. The ground truthing revealed that only SH‐wave full waveform inversion and seismic reflection imaging could image the trench and sediment structure with satisfying lateral and depth resolution. We emphasize that the velocity distribution from SH‐wave full waveform inversion agrees closely with the excavated subsurface structures, and that the discovered changes in seismic velocity correlate with changes in the sand content in the respective sediment facies sequences. The study demonstrated that SH‐wave full waveform inversion is capable to image structural and lithological changes in the near subsurface at scales as low as 0.5 m, thus providing the high resolution needed for archaeological and geoarchaeological prospection.