billion electron volts

简明释义

1. 京电子伏; 2. 千兆电子伏; 3. 十亿电子伏;

英英释义

例句

1.Researchers measured the energy levels of the new particle to be around billion electron volts (十亿电子伏特).

研究人员测量到新粒子的能量水平约为十亿电子伏特。

2.In high-energy physics, experiments often involve collisions at billion electron volts (十亿电子伏特) to study fundamental particles.

在高能物理学中，实验通常涉及在十亿电子伏特的碰撞，以研究基本粒子。

3.Cosmic rays can have energies in the range of several billion electron volts (十亿电子伏特).

宇宙射线的能量范围可以达到几十亿电子伏特。

4.The Large Hadron Collider operates at energies exceeding billion electron volts (十亿电子伏特).

大型强子对撞机的运行能量超过十亿电子伏特。

5.The particle accelerator can reach energies of up to billion electron volts (十亿电子伏特).

这个粒子加速器可以达到高达十亿电子伏特的能量。

作文

The world of physics is filled with fascinating concepts that help us understand the universe. One such term that often comes up in high-energy physics is billion electron volts, which is commonly abbreviated as GeV. This unit of measurement is crucial for describing the energy levels of particles, especially in particle accelerators and colliders. To grasp the importance of billion electron volts (十亿电子伏特), we must first understand what an electron volt (eV) is. An electron volt is defined as the amount of kinetic energy gained by a single electron when it is accelerated through an electric potential difference of one volt. Therefore, billion electron volts represents a significant amount of energy, equivalent to 1 billion times the energy gained by an electron moving through one volt.In practical terms, this means that when we discuss energies in the range of billion electron volts (十亿电子伏特), we are referring to energies that can create or destroy particles. For instance, the Large Hadron Collider (LHC), the world's largest and most powerful particle accelerator, operates at energies around several trillion electron volts (TeV), which is thousands of times more than just one billion electron volts (十亿电子伏特). This immense energy allows scientists to probe deeper into the fundamental structure of matter, leading to groundbreaking discoveries such as the Higgs boson.The significance of billion electron volts (十亿电子伏特) extends beyond just particle physics. In astrophysics, cosmic rays—high-energy particles from outer space—can reach energies exceeding 10 billion electron volts (十亿电子伏特). These cosmic rays provide valuable information about the universe's most energetic phenomena, such as supernovae and black holes. By studying these particles, scientists can gain insights into the processes that govern the cosmos.Moreover, the concept of billion electron volts (十亿电子伏特) is also relevant in medical physics, particularly in cancer treatment through radiation therapy. High-energy particles, often measured in billion electron volts (十亿电子伏特), are used to target and destroy cancerous cells while minimizing damage to surrounding healthy tissue. This application highlights the practical importance of understanding energy levels in electron volts.In conclusion, the term billion electron volts (十亿电子伏特) is a fundamental concept in various fields of physics, from particle physics to astrophysics and medical applications. Understanding this term allows us to appreciate the energy scales involved in some of the most exciting and important scientific research today. As technology continues to advance, the implications of working with energies measured in billion electron volts (十亿电子伏特) will only grow, opening new doors to discovery and innovation in our quest to understand the universe and improve human health.

物理学的世界充满了迷人的概念，帮助我们理解宇宙。其中一个经常出现在高能物理学中的术语是billion electron volts，通常缩写为GeV。这个测量单位对于描述粒子的能量水平至关重要，尤其是在粒子加速器和对撞机中。要理解billion electron volts（十亿电子伏特）的重要性，我们首先必须了解电子伏特（eV）是什么。电子伏特被定义为单个电子在通过一个电压差为一伏特的电场中所获得的动能。因此，billion electron volts表示相当于1亿倍的能量，等于一个电子在一伏特电压下移动所获得的能量。在实际意义上，这意味着当我们讨论在billion electron volts（十亿电子伏特）范围内的能量时，我们指的是可以创造或摧毁粒子的能量。例如，世界上最大、最强大的粒子加速器——大型强子对撞机（LHC）的工作能量约为几万亿电子伏特（TeV），这比仅仅一个billion electron volts（十亿电子伏特）要高出数千倍。这种巨大的能量使科学家能够更深入地探测物质的基本结构，导致了重大的发现，例如希格斯玻色子。billion electron volts（十亿电子伏特）的意义不仅限于粒子物理学。在天体物理学中，来自外太空的高能粒子——宇宙射线——的能量可以超过10billion electron volts（十亿电子伏特）。这些宇宙射线提供了关于宇宙中最具能量现象的信息，例如超新星和黑洞。通过研究这些粒子，科学家可以获得关于支配宇宙过程的见解。此外，billion electron volts（十亿电子伏特）的概念在医学物理学中也很相关，特别是在通过放射治疗进行癌症治疗时。高能粒子，通常以billion electron volts（十亿电子伏特）为单位来衡量，被用来针对和摧毁癌细胞，同时尽量减少对周围健康组织的损害。这个应用突显了理解电子伏特能量水平的实际重要性。总之，billion electron volts（十亿电子伏特）这个术语是物理学各个领域的基本概念，从粒子物理学到天体物理学以及医学应用。理解这个术语使我们能够欣赏到一些最令人兴奋和重要的科学研究中涉及的能量规模。随着技术的不断进步，使用billion electron volts（十亿电子伏特）进行工作的意义只会增加，为我们理解宇宙和改善人类健康的探索打开新的大门。