U.S. Department of Energy Office of Science’s Post

Outside of the 4 Fundamental Forces of physics - are two additional Fundamental Forces NOT presently accounted for via the Standard Model. These two additional Fundamental Forces are the based of the CTPSci Sciences and why we refer to CTPSci as #postquantum sciences. #nextbigthing

I'm excited to share our latest blog post celebrating a monumental achievement in the field of particle physics: the discovery of the Higgs boson. This pivotal finding has not only advanced our understanding of the universe but also laid foundational work for future research in science. Our post dives into the significance of this discovery and its implications for both theoretical and practical applications. Join us in exploring this groundbreaking topic by reading the full article here: [Yes we did discover the Higgs](https://ift.tt/M701DE2).

I am excited to share our latest blog post, which delves into the fascinating discovery of the Higgs boson and its profound implications for the field of particle physics. This post offers a comprehensive overview of the ongoing research surrounding this groundbreaking particle, highlights key milestones in its discovery, and discusses what comes next for scientists in this area. To deepen your understanding of this pivotal achievement in modern science, I invite you to read the full article here: [Yes, we did discover the Higgs](https://ift.tt/M701DE2).

I am excited to share our latest blog post, "Yes, We Did Discover the Higgs!" This piece delves into the monumental discovery of the Higgs boson and its profound implications for our understanding of particle physics. We explore the journey of this discovery, the key contributions of scientists involved, and the ongoing research that continues to expand our knowledge in this field. This is a must-read for anyone interested in the advancements of science and their impact on the future. Read the full post here: https://ift.tt/M701DE2

I am excited to share our latest blog post, which offers an in-depth exploration of the groundbreaking discovery of the Higgs boson. This significant achievement not only enhances our understanding of particle physics but also has profound implications for the field as a whole. Join us as we delve into the details of this monumental finding and its impact on scientific research. Read more about this fascinating topic by visiting the link below. https://ift.tt/M701DE2

I'm excited to share our latest blog post, which delves into the groundbreaking discovery of the Higgs boson. This research has not only advanced our understanding of fundamental physics but has also opened new avenues for exploration in the scientific community. In this post, we analyze the implications of this discovery and what it means for the future of particle physics. Read more about this significant milestone in science by visiting the link: https://ift.tt/M701DE2.

I'm excited to share our latest blog post, which delves into the groundbreaking discovery of the Higgs boson. This discovery has profound implications for our understanding of particle physics and the fundamental forces that shape our universe. Join us as we explore the significance of this achievement and what it means for the future of scientific inquiry. Read the full post here: [Yes we did discover the Higgs](https://ift.tt/M701DE2).

I am excited to share our latest blog post which delves into the groundbreaking implications of the Higgs boson discovery. This pivotal achievement in particle physics has profound consequences for our understanding of the universe. The post explores the significance of this discovery, its implications for future research, and what it means for both scientists and enthusiasts alike. Don't miss the opportunity to dive into this fascinating topic. Read the full blog post here: [Yes, we did discover the Higgs](https://ift.tt/M701DE2).

D&C OG Marco Immanuel Rivera led this work as part of his MS Physics thesis with Dr. Reina Reyes— an elegant contribution to the field of gravitational-wave astrophysics, relevant for analyzing signals from future space-borne missions like LISA. “When a stellar-mass black hole orbiting a supermassive black hole falls into it, an extreme-mass ratio inspiral (EMRI) gravitational-wave signal is produced,” Dr. Reyes and Rivera explained. One complication with detecting EMRIs is that the environment where the compact object-black hole pair resides can considerably affect the EMRIs they emit. For example, supermassive black holes are often surrounded by glowing rings called accretion disks, which can modify the EMRI signal just as the Earth’s atmosphere distorts light from faraway stars. By understanding how these environmental features affect EMRIs, astronomers can not only filter out noise from the signal but also learn about the environment itself. For instance, by studying the imprints of the environment on the gravitational wave signal, astronomers can infer the density of the accretion disk. … Read more in this article by Harvey Sapigao from the UPD CS SciComm Team 👇🏼👇🏼👇🏼

Exciting news in the world of particle physics! Our latest blog post delves into the significant discovery of the Higgs boson and its implications for our understanding of the universe. We explore the journey that led to this groundbreaking finding and discuss what it means for the future of research in this field. Dive into the details and discover how the Higgs boson has reshaped our scientific landscape. Read more at [Theory and Practice](https://ift.tt/M701DE2).