Lisa Randall
Lisa Randall
Lisa Randallis an American theoretical physicist and an expert on particle physics and cosmology. She is the Frank B. Baird, Jr. Professor of Science on the physics faculty of Harvard University. Her research includes elementary particles and fundamental forces and she has developed and studied a wide variety of models, the most recent involving extra dimensions of space. She has advanced the understanding and testing of the Standard Model, supersymmetry, possible solutions to the hierarchy problem concerning the relative weakness...
NationalityAmerican
ProfessionPhysicist
Date of Birth18 June 1962
CountryUnited States of America
Neuroscience is exciting. Understanding how thoughts work, how connections are made, how the memory works, how we process information, how information is stored - it's all fascinating.
Religion can have psychological and social roles, but in terms of really explaining how things work, science works differently. Science is based on material elements at the core.
The standard model of particle physics describes forces and particles very well, but when you throw gravity into the equation, it all falls apart. You have to fudge the figures to make it work.
I really like that my work is getting more people interested in science.
I do try to do high-impact work, and I try to think of ideas people haven't thought about that have broad implications, but I don't restrict myself to that. I try to work on things that I find interesting.
Warped Passages: Unraveling the Mysteries of the Universe's Hidden Dimensions.
There can sometimes be this fear among laypeople: 'I don't understand everything in science perfectly, so I just can't say anything about it.' I think it's good to know that we scientists are also confused some of the time.
There could be more to the universe than the three dimensions we are familiar with. They are hidden from us in some way, perhaps because they're tiny or warped. But even if they're invisible, they could affect what we actually observe in the universe.
There could be a vestige of extra dimensions hidden in your kitchen cabinet.
Most physicists like myself won't believe the result until every possible caveat has been investigated and/or the result is confirmed elsewhere.
When I came to Harvard, I was debating between math and science, and I guess I thought in the end I wanted something that could connect to the real world. I liked puzzle-solving and connections.
The process of science is difficult and challenging. It involves always being aware that your ideas might be right or they might be wrong. I think it's that kind of balance that makes science so interesting.
There are women for whom family is a priority, and they do it. It just wasn't as much a priority for me.
I actually like seeing how the world - trying to figure out how the world works, how it all fits together. Also, it makes me happy when I feel like things are consistent, when there's some sort of order to the universe.