 Some of the works that I'm most of myself that I'm most proud of are of that nature Yeah, for example the Quantum whole effect, which is some Condensed matter phenomenon that has been studied for many years more than 20 years. I think 30 years now has some Relationship or it can be understood using Something we called Field theoretic duality duality of particle vortex qualities that has been Considered in a completely different context Also for about 30 years, so that was very interesting I think for myself it's a rewarding experience to realize that these two different phenomena are related to each other That's one of the mysterious things about nature that sometimes the same The same to completely different made phenomena actually share the some some some some features that are Very Similar to each other and they are described by the same mathematics I must say that I am maybe one step away from experiments from the experiment, but I got a lot of stimulation from Experimental results, so I think physics is an experimental science and A lot of time nature are more clever than us So nature knows how to realize things that we cannot Imagine just starting by doing the calculation on paper. So I think My my my my I have learned a lot from experiment and another aspect of experiment Experimental physics is that it's also shapes the way I formulate problems for myself problems that Are more a lot of time problems that can be addressed in experiments or at least In principle can be addressed in experiments turn out to be the most The deepest problems A lot of time in some sense that the the common theme is still physics that involves many particles Even when I was doing particle physics. I was fascinated with With bariogenesis that is the how the baryons are generated in our universe and one of the if you know one of the Mechanism to do that is through a phase transition in our universe You imagine that At some point in the universe When it cools down there's one bubble of a new phase expand and And and a field the whole universe and that is basically a problem that involved a lot of statistical mechanics many body physics, etc so Problem what another problem that I was trying to solve during my PhD is the production of many particles from the collision of two particles when you collide two protons together and there will Some processes that eventually would give rise to a large number of final particles, and I was trying to solve some of that problem so the common thread is I Think physics of many particles and the laws that emerges from the simple laws that This particle obeys so when you have many particles the Simple laws that govern the interaction between two of them can lead to a new emerging emergent the emergence of new laws that govern the The many body system That's hard to say because if I look at my career I've been doing various things and if I am Like I was 10 years ago 10 years ago. I wouldn't be able to say what I'm going to do now so I think my my goal is to follow To try to see what are the most interesting physical phenomena Myself I'm interested in many in physics that involve many particles so I have most most likely I will be Doing many body physics and trying to connect phenomenon in many body physics with With some other fields. I have some Dream of understanding what people call non-fermilic with That will has been a long Standing problem in condensed matter physics People don't understand what happened if I take a Metal and then let the electrons couple to each other through long-range magnetic interaction for example On the other hand sometimes the problems that have been Have been with us for long times are the most difficult problem to solve and sometimes breakthrough In these problems Would come from solving a different problem, and I don't know what what is the different problems that one can solve but my my dream would be to to understand deeper the Phenomena that involve many particles