holograms
简明释义
n. [激光]全息图;全息照相;综合衍射图(hologram 的复数)
英英释义
Holograms are three-dimensional images formed by the interference of light beams from a laser or other coherent light source. | 全息图是由激光或其他相干光源的光束干涉形成的三维图像。 |
单词用法
体积全息照相;体积全息图 | |
傅里叶变换全息图 |
同义词
反义词
| 二维图像 | 这位艺术家为画廊创作了二维图像。 | ||
| 平面图像 | 平面图像可以很容易地打印和展示。 |
例句
1.This paper estimates the highest diffraction efficiency of embossed rainbow holograms, and costract it to measure value.
从理论上估算了模压彩虹全息片的最高衍射效率,与实测数据做了对照;
2.So far, the researchers apparently have created holograms only about the size of an index card.
至今,研究人员显然只制成了索引卡大小的全息图。
3.Researchers have developed a new way to create true-color holograms that can be viewed from any angle using ordinary white light.
研究者开发出一种生成真彩色全息图的新方法,使图象可以用普通白光从任何角度观察。
4.A method for storage of color films using Fourier transform holograms isp resented.
本文提出一种利用傅里叶变换全息图存储彩色胶片的方法。
5.This method can be used to guide hologram processing and improve quality of holograms.
此方法有助于指导全息照相的处理过程,提高全息图的质量。
6.One scientist, Herman Sno, proposes that we store memories similar to how holograms store information.
有一位科学家,HermanSno,提出我们储存记忆的方式与全息图储存信息的方式相似。
7.The fashion show included 全息图 of models walking the runway in virtual designs.
时装秀包括了模特在虚拟设计中走秀的全息图。
8.In the concert, they used 全息图 of famous singers to create a unique experience for the audience.
在音乐会上,他们使用了著名歌手的全息图,为观众创造了独特的体验。
9.Scientists are exploring the use of 全息图 in medical imaging to provide better diagnostics.
科学家们正在探索在医学成像中使用全息图以提供更好的诊断。
10.The museum featured stunning 全息图 of ancient artifacts that brought history to life.
博物馆展示了令人惊叹的全息图,让历史栩栩如生。
11.The new smartphone has a feature that allows users to view 全息图 of their photos.
这款新智能手机具有允许用户查看他们照片的全息图的功能。
作文
In the realm of modern technology, few concepts have captured the imagination as much as holograms. These three-dimensional images, created using laser light, allow us to visualize information in ways that were once thought to be purely science fiction. The term holograms refers to a photographic representation that appears to float in space, providing depth and realism that traditional two-dimensional images cannot achieve. This innovative technology has found applications across various fields, including entertainment, medicine, and education.One of the most prominent uses of holograms is in the entertainment industry. Concerts featuring deceased artists, such as Tupac Shakur and Michael Jackson, have utilized holograms to bring these legendary figures back to life on stage. These performances are not just visually stunning; they also create emotional connections between fans and the artists they idolize. The use of holograms in live performances opens up a new avenue for creativity, allowing performers to collaborate with virtual versions of themselves or even with other artists who have passed away.In the medical field, holograms are proving to be invaluable tools for education and surgery. Medical students can study complex anatomical structures through holograms, gaining a deeper understanding of the human body without the need for cadavers. Surgeons can also benefit from this technology, as holograms can provide a three-dimensional view of a patient’s anatomy before an operation. This capability allows for better planning and precision during surgeries, ultimately leading to improved patient outcomes.Education is another area where holograms are making significant strides. Imagine a classroom where students can interact with a hologram of a historical figure or explore the solar system in three dimensions. This immersive learning experience can enhance student engagement and retention of information. By incorporating holograms into educational settings, teachers can create dynamic lessons that cater to various learning styles, making education more accessible and effective.Despite the exciting possibilities, the technology behind holograms is still evolving. As researchers continue to refine the techniques used to create holograms, we can expect to see even more realistic and interactive applications emerge. Future developments may include holograms that respond to touch or voice commands, further blurring the lines between the digital and physical worlds.In conclusion, holograms represent a fascinating intersection of art and science, offering innovative solutions across multiple disciplines. From enhancing entertainment experiences to revolutionizing medical training and education, the potential of holograms is vast and largely untapped. As technology continues to advance, we can only imagine the incredible possibilities that await us in the future of holograms and their applications in our daily lives.
在现代科技的领域中,少有概念能够像全息图一样捕获人们的想象力。这些利用激光光线创建的三维图像,让我们以曾经被认为是纯粹科幻的方式来可视化信息。术语全息图指的是一种看似漂浮在空间中的摄影表现,提供了传统二维图像无法实现的深度和真实感。这项创新技术在娱乐、医学和教育等多个领域找到了应用。全息图在娱乐行业中的一个显著用途是举办演唱会,展示已故艺术家的表演,例如图帕克·沙库尔和迈克尔·杰克逊。这些表演不仅在视觉上令人惊叹;它们还创造了粉丝与他们崇拜的艺术家之间的情感联系。在现场演出中使用全息图为创意打开了一条新的道路,使表演者能够与自己虚拟版本或甚至与已故的其他艺术家合作。在医学领域,全息图被证明是教育和手术中不可或缺的工具。医学生可以通过全息图学习复杂的解剖结构,在不需要尸体的情况下深入理解人体。外科医生也能从这一技术中受益,因为全息图可以在手术前提供患者解剖结构的三维视图。这种能力使得手术的规划和精确度得以改善,最终提高了患者的治疗效果。教育是另一个全息图正在取得重大进展的领域。想象一下,一个教室里,学生们可以与历史人物的全息图互动,或者以三维形式探索太阳系。这种沉浸式学习体验可以增强学生的参与感和信息的保留率。通过将全息图融入教育环境,教师可以创造出动态的课程,满足各种学习风格,使教育变得更加可及和有效。尽管可能性令人兴奋,但全息图背后的技术仍在不断发展。随着研究人员继续完善创建全息图所需的技术,我们可以期待看到更逼真和互动的应用出现。未来的发展可能包括响应触摸或语音命令的全息图,进一步模糊数字世界与物理世界之间的界限。总之,全息图代表了艺术与科学的迷人交汇点,为多个学科提供了创新解决方案。从增强娱乐体验到革新医学培训和教育,全息图的潜力广阔且未被充分挖掘。随着技术的不断进步,我们只能想象在全息图及其在我们日常生活中的应用未来会带来多么不可思议的可能性。
