美国科学论文代写:透射式全息图
这里将讨论的3D细节是在全息术中使用颜色的细节。全息图将光线衍射到图像中,因此全息照相的发展将基于正在显示的选定波长。每个波长对应于不同的颜色。反射式全息摄影将只能够构建一些波长。另一方面,透射式全息图将能够衍射所有的波长颜色。因此,这使得可以通过选择不同的波长图案来控制颜色。选择不同的光谱颜色并基于相同的全色图像构建颜色(Holocenter,2015)。
在反射全息图的情况下,化学处理对于处理边缘结构将是有用的。因此可以修改图像的颜色。在反射全息图中有可能通过多次曝光来创建颜色,或者通过使用一种形式的条纹间隔技术。然而在透射全息图中有更好的视觉质量。这里因此不需要修改化学反应,而是可以修改几何形状。考虑到固有设置不需要改变太多,这是更有利的。在透射全息图中,白光源因此将能够将所有波长衍射到图像中。然而在正常情况下,可以说红色波长具有更长的性质,实际上会偏离更多(Michael,1996)。另一方面,蓝色波长将被衍射少一点。衍射图案的这种形式的变化将导致颜色污迹。因此产生彩虹图案的形式。这种彩虹全息图的形式可以记录在主条上。当主条上面有光源播放时,会产生水平视差。
美国科学论文代写:透射式全息图
The 3D detail that will be discussed here is that of working with colours in holography. Holograms will diffract light into an image and hence the development of holography will be based on the selected wavelength that is being displayed. Each wavelength corresponds to a different colour. Reflection style holography will only be capable of constructing some wavelengths. On the other hand the transmission style hologram will be able to diffract all the wavelengths-colours. Hence this makes it possible to control colours by selecting different wavelength patterns. Different spectral colours are selected and based on the same the holographic image with colour is constructed (Holocenter, 2015).The 3D detail that will be discussed here is that of working with colours in holography. Holograms will diffract light into an image and hence the development of holography will be based on the selected wavelength that is being displayed. Each wavelength corresponds to a different colour. Reflection style holography will only be capable of constructing some wavelengths. On the other hand the transmission style hologram will be able to diffract all the wavelengths-colours. Hence this makes it possible to control colours by selecting different wavelength patterns. Different spectral colours are selected and based on the same the holographic image with colour is constructed (Holocenter, 2015).
In the context of a reflection hologram, chemical processing will be useful for manipulating the fringe structure. The colour of the image can hence be modified. It is possible in the reflection hologram to either create colour from multiple exposures, or by using a form of fringe spacing technique. In the transmission hologram however there is a better visual quality. Here there is hence no need to modify the chemistry, instead the geometry can be modified. This is more advantageous given that the inherent settings need not be changed much. In the transmission hologram, a white source of light hence will be able to diffract all the wavelengths into the image. In normal cases however it can be said that the red wavelength being of a longer nature will actually be deflected more (Michael, 1996). On the other hand the blue wavelength will be diffracted a little less. This form of a change in the diffraction pattern will cause a colour smear. A form of rainbow pattern is hence produced. This form of a rainbow hologram can be recorded onto a master strip. When the master strip is played by having a light source just above this, a horizontal parallax will be created.
