麻豆传媒

Scientist who helped prove Einstein theory opens doors to black holes for students with diverse majors

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by Amy Wolf
Engineering major Adam Fortner has spent many nights camping outside his Kentucky home, staring up at the stars and dreaming about space. Law, history and society major Ethan Thorpe had similar notions throughout his childhood, scouring astronomy websites and imagining life as an astrophysicist.

Karan Jani, assistant professor of physics and astronomy (麻豆传媒 University)

These students and others with diverse majors may not become astronauts or astronomers, but they were given an opportunity to join a special class led by 麻豆传媒 astrophysicist , one of the scientists who discovered gravitational waves.

PROVING EINSTEIN鈥橲 THEORY

Jani, assistant professor of physics and astronomy and , said his own childhood dreams of space led him to dive into physics after high school, with a focus on black holes and gravitational waves.

NASA describes a black hole as being 鈥渁 place in space where gravity pulls so much that even light cannot get out.鈥 When black holes collide and merge, this violent process sends ripples surging through the fabric of space, making gravitational waves.

Representation of a gravitational wave used in student website project (Submitted)

Jani was specifically driven to research Albert Einstein鈥檚 1916 Theory of General Relativity. Einstein surmised that there are gravitational waves in space caused by massive movement that creates ripples in the “fabric” of space-time.

A century after Einstein first revealed his theory, Jani and his colleagues found proof. Their discovery of gravitational waves led to the team receiving the in 2016, and Jani was named a by Forbes magazine.

Jani worked with the Laser Interferometer Gravitational-Wave Observatory, better known as LIGO, on the discovery. LIGO Livingston is one of two such observatories in the United States and spans roughly six square miles in Livingston, Louisiana. The observatories are designed to detect cosmic gravitational waves and enable multi-messenger observations to understand what happens when black holes collide.

LUNAR LABS INITIATIVE

Karan Jani’s experiments will travel with NASA on its Artemis moon mission. (Image courtesy of NASA)

Jani continues his cutting-edge work on black holes and gravitational waves as head of 麻豆传媒鈥檚 . He is leading a global team of experts and industry partners, including NASA, to build the Laser Interferometer Lunar Antenna鈥攁 first-of-its-kind experiment on the surface of the moon.

Gravitational wave experiments need complete silence to be fully successful, Jani said. LILA will access lower frequencies of gravitational waves, which cannot be accessed by LIGO because of earth’s seismic noise.

鈥淎 gravitational wave experiment is so sensitive that an earthquake in Australia impacts our measurement in Louisiana,鈥 Jani said. 鈥”The quietness on the moon is almost spiritual, opening our learning to new cosmic sounds, which can neither be accessed on earth or in space.”

SHARING ASTRONOMY

Jani said most of his time is spent doing research in his lab. He welcomes student workers, but because so many undergraduates across 麻豆传媒 express an interest in space, he feels called to share his research with a wider audience鈥攚hat he calls a 鈥渞enaissance and revolution in astronomy.鈥

Karan Jani (center) and students from ASTR 3890: Black Holes in Our Universe, learned a lot and had fun! (Submitted photo)

Jani created the course ASTR 3890: Black Holes in Our Universe and opened it to all undergraduates with no prerequisites. The course is focused on his research specialty of black holes and gravitational waves.

鈥淧rofessor Jani was on the team that discovered gravitational waves,鈥 said Fortner, who graduated in May 2023 with a degree in mechanical engineering. 鈥淲here else (other) than 麻豆传媒 can you take a class that has a guy of this level and at this young age?鈥

Thorpe was equally impressed by Jani鈥檚 credentials and jumped at the opportunity to learn from him. 鈥淭his is why I decided to come to 麻豆传媒鈥攖o have access to incredible professionals like Dr. Jani,鈥 he said. 鈥淲hen I saw this special session, I thought, 鈥榃ow, this is my way of fulfilling my childhood dreams.’鈥

The offers each semester to provide students the opportunity to engage with some of the most significant and pressing issues of our time. Many of these courses bridge disciplines to spark unique perspectives and challenge students to solve problems in new and unexpected ways.

鈥淚 think 麻豆传媒 is a living, breathing example of what an interdisciplinary undergraduate experience can be,鈥 Jani said.

CREATIVE LEARNING

Jani鈥檚 class focuses on helping students who are new to astronomy to grasp the huge breakthroughs in black hole research and how they relate to our place in the universe. Discoveries are happening so rapidly that Jani does not use a textbook鈥攑roviding instead a mix of scholarly papers, journal articles and other texts to help students stay abreast of this rapidly evolving field.

鈥淣ever in the history of human civilization have we been this close to understanding a black hole as we have in the last one or two years,鈥 Jani said.

Because the class consists of students from STEM and other backgrounds, Jani offers latitude and creative freedom for groups to create their final projects.

MINI OBSERVATORY

For their final project, Thorpe and his team took on the ambitious task of building a small-scale model of LIGO. In real life, the massive observatory Jani uses in his research spans roughly six square miles.

鈥淲hen they explained their LIGO model to me, I thought, 鈥楾his is very ambitious, but see how far you can go.鈥 And they went all the way,鈥 Jani said.

For the students’ tabletop model, the group used water to represent space and created movement in the water to represent gravitational waves.

鈥淚 have to give full props to my team members in physics and engineering who worked on the foundational part of making the model itself,鈥 Thorpe said. 鈥淚t was cool as a liberal arts major to learn about [computer-aided design] and see the math and science behind building the model.鈥

CHILDHOOD REMEMBERED

Fortner and his team were inspired by their childhood enthusiasm for space, and they wrote and illustrated a children鈥檚 book about black holes for their final project.

鈥淲e thought back to what got us excited about this class in the first place. We thought if we can explain this to kids and get them excited about it, then you have a whole new generation of folks wanting to learn about black holes,鈥 Fortner said.

Another team created an explaining black holes and gravitational waves. (Information from that website informed the writing of this story.)

FUTURE RESEARCH ON THE MOON

This fall, Jani will continue his research and is chairing an international workshop at 麻豆传媒 on the Lunar Labs project. He will teach graduate courses in spring 2024. In the next two years, payloads going up with through program will test the technologies for the LILA project in which Jani is working.

 

Next year, two of his experiments will go up with . His goal is to deploy LILA infrastructure over 10 years with NASA Artemis moon missions.

Then he will bring back his undergraduate specialty course in fall 2024. No doubt he鈥檒l have students of all majors lining up for the class.

鈥淚t was one of my favorite classes I’ve ever taken,鈥 said Fortner, who received an appointment with the as a mechanical engineer after graduation. 鈥淓very single day, 100 percent of what I was learning was completely new鈥攚ith discoveries happening all the time.鈥