| 講演要旨(和文) | | 恐竜の足跡化石が発見されることがある.足跡上盤との岩質に一見違いがなくても,堆積作用にともなう何らかの地質的不連続性があるはずである.ホログラフィックレーダは,浅部埋設物の平面形状を探るのに適している.固形化したローム土を粉末状のローム土中に埋め,レーダ画像を取得した結果,弱いながら形状を確認することができた.また,同じ材料に比誘電率の異なる薄層を挿入し,レーダ画像を取得した結果,反射波を検出することができた.検出可能な最薄層厚は,足跡面で接する上盤と下盤の比誘電率のコントラストが大きい程薄かった.最後に,実際の恐竜足跡化石の鋳型からレプリカを作製し,レーダ画像を取得した.十分な反射信号は得られなかった.そこで,間隙に粘土を挿入したところ,足指の形状が認識できる程度のレーダ画像が得られた.恐竜足跡化石にともなう何らかの堆積環境の違いにより,レーダ探査が可能になる可能性がある. |
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| | 講演要旨(英文) | | The existence of a footprint fossil indicates that some discontinuity occurred at the footprint plane during sedimentation. Holographic radar reveals the plan shape of buried objects in shallow part. Basic experiment showed that a clod of loam soil buried in powdered loam soil appeared blur but was recognized in the radar image. Another basic experiment showed that a microscopic thin film layer inserted between base material also provides recognizable reflection. The minimum required layer thickness is rather smaller in larger contrast of permittivity. Finally blind tests were performed for realistic samples of dinosaur footprints. The radar image has no recognizable pattern in case of only microscopic air gap. However, when the air gap was replaced by very thin clay layer, the shape of the toes became recognizable. There may be some cases that some discontinuity during sedimentation makes the shape of a dinosaur footprint fossil recognizable by holographic radar. |
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