absorption hologram

简明释义

1. 吸收全息图; 2. 吸收全息像片; 3. 吸收全息照片;

英英释义

例句

1.Researchers are exploring new materials that could enhance the performance of absorption holograms (吸收全息图).

研究人员正在探索新材料，以提高吸收全息图 (吸收全息图) 的性能。

2.The scientist demonstrated how an absorption hologram (吸收全息图) can be used to visualize complex molecular structures.

科学家展示了如何使用吸收全息图 (吸收全息图) 来可视化复杂的分子结构。

3.The absorption hologram (吸收全息图) technology is revolutionizing the way we capture and store information.

吸收全息图 (吸收全息图) 技术正在革新我们捕捉和存储信息的方式。

4.In the exhibition, visitors were amazed by the clarity of the absorption hologram (吸收全息图) displayed on the wall.

在展览中，游客们对墙上展示的吸收全息图 (吸收全息图) 的清晰度感到惊讶。

5.Artists are beginning to use absorption holograms (吸收全息图) in their installations to create immersive experiences.

艺术家们开始在他们的装置中使用吸收全息图 (吸收全息图) 来创造沉浸式体验。

作文

The world of holography has fascinated scientists and artists alike for decades, offering a unique way to capture and display three-dimensional images. Among the various types of holograms, the absorption hologram stands out due to its distinct method of recording and reproducing light. In essence, an absorption hologram (吸收全息图) is created when a laser beam is split into two parts: the reference beam and the object beam. The object beam illuminates the subject, while the reference beam is directed onto the recording medium. The interference pattern formed between these two beams is what ultimately creates the hologram.One of the most fascinating aspects of absorption holograms (吸收全息图) is their ability to store information about the amplitude and phase of the light waves that are reflected from the object. This means that when the hologram is illuminated with the reference beam, it reconstructs the light waves in such a way that a three-dimensional image is perceived by the viewer. Unlike traditional photographs, which only capture a two-dimensional representation, absorption holograms (吸收全息图) provide depth and realism, allowing viewers to see different perspectives of the object as they move around.The recording medium used for absorption holograms (吸收全息图) can vary, but typically consists of photosensitive materials that change their properties when exposed to light. When the interference pattern is recorded on this medium, it results in a permanent change that can later be illuminated to produce the holographic image. This process involves complex chemistry and physics, making the production of absorption holograms (吸收全息图) both an art and a science.Applications of absorption holograms (吸收全息图) are diverse and continue to grow as technology advances. They are used in security features for credit cards and passports, where the intricate designs are difficult to replicate. Additionally, they play a significant role in data storage solutions, as they can potentially hold vast amounts of information in a compact format. In the field of medicine, absorption holograms (吸收全息图) can be utilized for imaging techniques, providing detailed visualizations of biological structures that aid in diagnosis and research.Despite their many advantages, creating high-quality absorption holograms (吸收全息图) presents challenges. Factors such as environmental conditions, the stability of the recording medium, and the precision of the laser equipment all play crucial roles in the final outcome. Researchers are continually working to improve these aspects to enhance the quality and accessibility of holography.In conclusion, absorption holograms (吸收全息图) represent a remarkable intersection of art and science, allowing us to visualize the world in ways that traditional photography cannot achieve. As we continue to explore the potential of this technology, we may find new applications that could revolutionize industries ranging from security to medicine. The future of holography is bright, and the absorption hologram (吸收全息图) will undoubtedly play a pivotal role in its development.

全息摄影的世界几十年来一直吸引着科学家和艺术家，提供了一种独特的方式来捕捉和展示三维图像。在各种类型的全息图中，吸收全息图因其独特的记录和重现光的方法而脱颖而出。简单来说，吸收全息图是在激光束被分成两部分时创建的：参考束和物体束。物体束照射到对象上，而参考束则指向记录介质。形成在这两束之间的干涉图案最终创建了全息图。吸收全息图最迷人的方面之一是它们能够存储关于从物体反射的光波的幅度和相位的信息。这意味着，当用参考束照亮全息图时，它以一种重建光波的方式重新构造，使观众感知到三维图像。与传统照片仅捕捉二维表现不同，吸收全息图提供了深度和真实感，让观众在移动时看到物体的不同视角。用于吸收全息图的记录介质可以有所不同，但通常由光敏材料组成，这些材料在光照射下会改变其性质。当干涉图案记录在这种介质上时，导致的永久性变化可以在后续照明时产生全息图像。这个过程涉及复杂的化学和物理，使得吸收全息图的制作既是一门艺术也是一门科学。吸收全息图的应用多种多样，随着技术的进步而不断增长。它们被用于信用卡和护照的安全特征，其中复杂的设计难以复制。此外，它们在数据存储解决方案中也发挥着重要作用，因为它们可以在紧凑的格式中潜在地保存大量信息。在医学领域，吸收全息图可用于成像技术，提供生物结构的详细可视化，有助于诊断和研究。尽管有许多优点，但制作高质量的吸收全息图仍然面临挑战。环境条件、记录介质的稳定性以及激光设备的精度等因素在最终结果中都起着至关重要的作用。研究人员不断努力改善这些方面，以提高全息摄影的质量和可及性。总之，吸收全息图代表了艺术与科学的惊人交汇，使我们能够以传统摄影无法实现的方式可视化世界。随着我们继续探索这一技术的潜力，我们可能会发现新的应用，这可能会彻底改变从安全到医学的行业。全息摄影的未来光明，而吸收全息图无疑将在其发展中发挥关键作用。