讨论并用实验研究了人体浑浊介质及生物介质——厚度高于特征衰减深度若干倍的人体组织和散射介质层——对激光和其它辐射的透过率。在挤压和刺穿软的散射介质时,观察到透过率急剧提高。发现压迫人体浑浊介质层时,透明度远高于对模拟生物组织局部加压的情况,这与血液消失以及把肌肉从加压处挤开有关。对无线电辐射——带电粒子、X射线及伽马射线等,也同样观察到散射和吸收的降低。指出可能应用本研究结果作深度辐照,以抑制内部病变(如脊髓),治疗神经性传染病(侧面肌肉萎缩硬化、播散性硬化、脊髓灰白质炎等),也可用于治疗肿瘤、溃疡等。 Discuss and experimentally investigate human turbid media and biological media - Human tissue and scattering media layers that are several times thicker than the characteristic attenuation depth - Transmittance to lasers and other radiation. The sharp increase in transmission is observed when squeezing and piercing soft scattering media. When ophthalmic turbid media is found to oppress, the transparency is much higher than that of local pressurization of simulated biological tissues, which is related to the disappearance of blood and the squeezing of muscles from the pressure. The same is true of scattering and absorption reduction for radio-charged particles, X-rays and gamma rays. It is indicated that the results of this study may be used for deep irradiation to inhibit internal diseases such as the spinal cord, to treat neurogenic diseases (lateral muscular atrophy, disseminated sclerosis, myeloplasminosis, etc.) and to treat tumors and ulcers Wait.