So it's a bit ironic that Damian now works on Wall Street. But he did not get there via the route of the failing physics major. After finishing his bachelor's degree in physics at Penn he won a fellowship to do a PhD in experimental nuclear physics. What's more, he completed it in four years -- three years shorter than average for astronomy and physics PhDs.
Damian is the Chairman and CEO, and also a co-founder, of Investor Analytics, whose clients manage over $380 billion in assets. Here he describes what drew him to physics, how he got through grad school in four years, why he left academia behind and switched to the financial industry, as well as his work on "the Street." His description of the level of mathematical sophistication in the financial industry is one I found quite surprising.
For the physicist considering a career in finance, Damian points out that the most likely viable path will be through a master's degree in financial engineering, and that a bachelor's degree in physics would be good preparation for the master's degree and subsequent career.
For the physicist about to pick a PhD advisor, you'll be interested to read how Damian went about it.
There will be a part II because, after our first interview, Damian realized he had plenty of advice he was eager to dole out. We've done the part II interview and Angela has transcribed it. Look for it to be posted in the near future.
Q: How did you become
interested in Physics?
My father was a mathematics/physics student when I was
born -- an event that cut his grad school career short. Growing up, math and physics
were just what we talked about. I was always good at math because he helped me
get good at math. From an early age, I was taught more advanced math than what
I learned in school, and by the time I got to high school, I loved it. When I
entered college, in the mid-80s at Penn, I was actually convinced I was going
to be premed. In my freshman year, I took physics because I liked it, but I knew
I needed to take a bunch of chem and bio. I was not looking forward to the bio
part. Chemistry, I thought, was just applied physics. I don’t believe that
anymore. It was two nuclear physicists, Fay Ajzenberg-Selove and David
Balamuth, that made nuclear
physics the absolute most exciting thing I could possibly do, and I was
hooked.
Q: You went on to do a
Ph.D. in Nuclear Physics in Michigan?
Yes, at Michigan State, I worked on heavy ion collisions.
When I got to grad school, one of the first things I did was
email my old undergrad advisor, and I asked him, “What are the most important
things to think about when picking an advisor for my Ph.D.?” He gave me a list
of practical things. I actually went and interviewed, I think, every single
nuclear physics professor in the department. I literally sat down, made
appointments with everybody, and said I want fifteen, twenty minutes of your
time, not more than that. I introduced myself, told them what I’m interested
in, and wanted to know about their research and whether they’re looking to get
an additional student. One of the things I said was that I wanted to be done in
less than four years. I had a bunch of people looking at me like I had two
heads. Two of the professors did not kick me out of their offices.
Q: Why did you
want to be done so quickly?
I had a fellowship that gave me a little extra money, and it
ran out after four years. I decided that the last thing I wanted was to be a
fifth-year grad student suddenly on less money than I had for the first four
years. I would just feel really bad about that. It was a good motivation for me
to finish. At that point, I was absolute: I was going to do my postdoc,
probably two, and eventually be a professor someplace. I said, “If I can be
done with grad school sooner, why not?”
One of the guys who did not kick me out of his office actually
said, “If you’re really
lucky and you do really hard work and you’re good, you could be done in four
years, but even if you’re really good and lucky and work hard, there’s no
guarantee.” I accepted that as a not no. He said, “Look, if you’re
really seriously considering asking me to be your advisor, you need to know,
I’m about to be named Lab Director. That means I’m not going to have a lot of
time for you, and you need to know that.”
I thought about it. I said, “Well, basically you just told
me that you’re going to show me how to run a 400-person organization by
example, and I’m going to get to ask you questions about how to run something
really big. I’m going to learn serious management. For the most part, I’m going
to be on my own, you’re still going to be able to interact with me, so I’m
going to learn from you, but I’m going to have to learn by doing, so I’m going
to learn it better. And, after four years, you’re going to have built a lot of
political connections all over the physics community as Lab Director, and it’s
going to be much easier to get the job that I want. Absolutely, this is exactly
who I want to be my advisor.”
Now, I say this a little tongue-in-cheek, but I actually
said all three of these things. It’s going to be harder on me, you’re going to
help me get a job, and I’m going to learn how to manage people.
Q: That’s a very savvy
approach for a beginning graduate student.
I’m going to give credit to my
undergrad advisor. Some of the things he said were to make sure that the professor
has at least one student who is more senior than you, because that student is
the one who’s really going to show you the ropes. For me, that was Mike Lisa, who is now at Ohio
State. My advisor also said to make sure that the professor actually graduates
students. You don’t want to be there seven years, eight years. You want to move
on with your career. Make sure there actually is a thesis project that is
viable in the time frame. You’re not going to be starting your experiment four
years from now. And, he said that tenure is a touchy topic, because you don’t
want to risk your advisor leaving after two years to pursue tenure somewhere
else. You almost have to pick someone who is tenured. He did say that the
non-tenured professors need students. That’s part of the community, and everyone
has to participate in that.
At the time I entered grad school,
I was 100% I’m going to be a physics professor. So, the transition came about
in my second year. I remember walking to class with one of the other grad students,
and he had a copy of the Wall Street Journal under his arm. I remember teasing
him, but I was quite serious, why would you ever read such drivel? There is no
intellectual content in that; it’s all man-made. There is nothing to be
discovered – it’s all money.
Within a year of that statement, I
found myself reading finance papers to try to understand how that entire
industry works. I had realized that there were a number of things about the
route to being a physics professor that didn’t jive with what I wanted out of a
career. One of those is geography. I’ve always lived in the Northeast. I knew I
wanted to work someplace within a three-hour drive of New York City. That
really limits what you can do if you’re a physicist.
What attracted me to physics was
solving really hard problems and getting that euphoric high when you understand
something that you didn’t understand before. I love that. As an undergrad, you
don’t tend to work on problems more than a week or two. What I found was,
professors spend a lot of their time managing grants and grant proposals and dealing
with very restrictive budgets. And, you don’t get to choose where you’re going
to live. I just said, quite frankly, life’s too short. These were things about
physics that were pushing me out of professional physics.
There’s one other significant one:
I’m selfish, in that I
wanted to see the benefits of my labor in my lifetime. I absolutely
subscribe to the fact that the world needs more scientists. There’s a piece of
me that is in perpetual guilt that I did not continue promoting the body of knowledge of pure science, of pure research. That, to me, is the thing that is
going to continue to make humanity better. Medical advances, lifespans, our
intellectual curiosity about how the world and universe works, all of those
things. That is the thing that drives long-term growth for everybody.
Q: You mentioned wanting to see the fruits of your labor in your
lifetime. Why don’t you talk about what you see these fruits as? What is really
satisfying to you, either those you’ve seen or those you hope to see?
Today, I run a medium-sized
company that specializes in quantitative risk management for people who run
very large portfolios. That means state pension funds – pension funds for state
employees, teachers, firemen, policemen, what have you. That means corporate
pension funds for people who have worked at large corporations for forty or
fifty years and get pension when they retire. The people who manage that
portfolio might use our services to understand the risks that they have in
order to make sure they have enough money to pay the pensioners. That’s the
bottom line. Our clients are also mutual fund managers, hedge fund managers,
people who are managing other pools of money for other types of constituents.
I got to Wall Street in
’95. There were a lot of physicists who made the transition right around then.
It wasn’t a phenomenon yet on Wall Street, so we were still all kind of unique
birds, but Wall Street hired a lot of physicists and mathematicians because
derivative investment was going through the roof, and they needed people who
understood these things. Today, they have a whole bunch of courses in Masters
programs called Financial Engineering, which essentially is what I did, after
hours in the early ‘90s, educating myself on finance.
After almost 20 years on Wall Street,
I’ve come to the conclusion that economics is in the state that medicine was in
the 1700s: belief in humors, belief in leeching. What I mean by that is that economic
theory works enough of the time that people aren’t willing to throw it out. But
it is blatantly wrong so much of the time that it would never get published in
a physics journal. There is very little experimentation to justify the theory.
The theories are justified because they are consistent with previous theories,
which are grounded in only a little data. Math has been applied to the economy,
and statistics have been applied to the economy, as if we understand the causal
agents and what’s going on underneath. The fact is, we don’t. No one does.
There’s a new branch of science called Complexity Science. It’s an outgrowth of
Chaos Theory that studies beehives, ant colonies, cities, traffic patterns. One
of the hallmarks is it has plenty of feedback loops, lots of nonlinearities,
but you cannot describe it with an equation. There is no equation of state for
this stuff. It evolves, it is highly interactive, it’s adaptable, and through
time it interacts with itself. The economy is such a system. Applying math as
if there was a deterministic system to it is just the wrong approach. That is
essentially what modern economics attempts to do: throw a bunch of math at the
problem and pretend that we understand how things are going to work. What I
mean by that is this: imagine
how much more difficult physics would be if protons had personalities.
The truths they discover are
locally and temporally true, but there are no macro truths. There is a
well-known economist out of MIT named Andrew Lo, and we’ve had a couple
partnerships with him where we’ve implemented some of his ideas about how to
measure things. He has this wonderful quote that says, “In physics, there are
three laws that explain 99% of all phenomenon. In economics, we have 99 laws
that explain 3%.” That really captures it.
Q: Would you say that you discovered a very rich intellectual territory
with difficult problems and a real practical benefit from addressing them?
The answer to that is yes, I have.
Now the disappointing part: you don’t get paid on Wall Street for understanding
how things work. That is part of the frustration of this career. I don’t have
the luxury of spending my days thinking about how stuff works or testing out
theories or trying to gain that knowledge. On Wall Street, you are paid for
producing something that someone else wants and maximizing the revenue for
that. Because that’s the nature of the environment, you have to participate in
the game or you don’t have a job. What I’ve attempted to do is bring a unique perspective. It’s a
minority viewpoint. Back to the pension funds, so few people understand some of
the analytics they use on a regular basis that they use them even when the
analytics are completely and totally wrong.
I’m going to give you a simple
example. There’s something on Wall Street called beta. It’s the slope of a regression
line between two different sets of data. You make a scatterplot, find the
linear regression between them and it’s the slope of that line. When the
scatterplot is the returns of your fund, take one of your investments and the
returns you made every month, as compared to the returns of the S&P 500, or
any other benchmark index that you want to compare yourself to. The notion is
that if the slope is greater than one, you have a greater volatility. If the
slope is less than one, you have a lower volatility. You can show that is true
if and only if the correlation between those two data sets is equal to one.
They drop the “if and only if” part. They just drop it. Nobody, except people
really steeped in science, even knows that that’s part of the whole process. It
gets simplified down to the point where people who manage tens of billions of dollars
of pension fund assets do not understand that when the correlation is below
one, the slope of the line is less and less useful. Imagine you’ve got a
pension fund that benchmarks itself to some index. The correlation to that
index is dropping lower and lower, and they want to hedge some of the risks.
They’re using that beta number to figure out how much hedging they should buy
to hedge the risks in that portfolio, meanwhile beta is a completely
meaningless number. They’re
spending an enormous amount of money on something when the analysis is devoid
of content.
Q: Why doesn’t that get punished?
It does get punished in a market
fashion, except that their peers, the other pension funds, are behaving
similarly. In this industry, it is not an absolute game. It’s a relative game.
What I mean is, during the financial crisis, the US equity market, the stock
markets, were down 45%. The average pension fund lost something like 40% of its
assets. Everyone was down 40%. Nobody got fired, because you didn’t do worse
than that other pension fund down the street. There’s a herd mentality. It simply
doesn’t get punished because of the way the system works. The people who get punished are the pensioners, not the people
managing the pension funds.
Q: You’re aware of these discrepancies between practice and reality,
and that must be part of the reason why your company exists and why you’re
successful.
We appeal to that sliver of the
marketplace that actually wants to do a better job. Of course, I can’t say
categorically that no one wants to do a better job. There are some who
legitimately want to understand how to do this better and get better at it. That’s
the part we appeal to. Here’s the other edge of the sword, the intellectually
honest sword, if you will. It’s a very powerful tool in the sciences to have
the peer review, to be intellectually honest, because the process improves. Everyone
knows that’s the way to play the game. We have a number of competitors who also
put out analytics products, but when it comes to risk, we are the only firm to
my knowledge that actually publishes the goodness of fit measures, the
confidence intervals, anything like that. That is a challenge. It’s a detriment
to us. We’ve actually lost business because the interpretation is not “These
guys are really good, they get it, they’re showing me stuff.” No, the
interpretation is “Your models don’t work?” Don’t think about having
conversations with other physicists, think about having conversations over
Thanksgiving dinner at a not-physicist’s house, a relative’s house, a friend’s
house, not in the sciences, and having this conversation. That’s kind of how
people interpret this stuff because they don’t have the physics training. They have
the finance training.
If you ever pick up an economics textbook,
you will never see an error bar in it, anywhere. Economists, finance majors, and
anyone who goes to business school don’t know the concept of an error bar. There
is no concept of uncertainty in any measurement. How do you even begin to have
a conversation with somebody about measurements if you can’t have that
conversation? My transition from physics to finance was very rocky in the first
year because I spoke physics, but I did not speak a word of business. I took a
job at a consulting firm called Deloitte and Touche. Here I am, defending my
thesis, and two weeks later I am literally in the senior executive office at
Metlife, biggest insurance company in New York City, and I’m talking to senior
executives of how to use the Internet to change their business. Two weeks. What
the hell did I know of how to change a business? But I knew how to use email, I
knew how to write HTML, so I was declared the firm’s Internet guru. This is how
it happens. I spoke so little business, that when someone in that meeting
mentioned the IMF, my immediate thought was, “Why are they talking about
intermediate mass fragments?” Not International Monetary Fund, or anything to
do with finance.
I also learned early on that if
I’m going to talk about the concept, I shouldn’t use the term “error bar,”
because immediately people think you’re making mistakes. My first boss almost
fired me. When I say my first year was rocky, it was rocky. I now call them
confidence intervals. I try to explain the concept to people on the street using
personal examples. I’ll talk about the fact that anyone who owns a house
doesn’t really know it’s worth. We have an estimate of what the house is worth,
but it might be 5% lower than that, it might be 6% above that. We can’t
guarantee it to a thousand dollars or ten thousand dollars. It fluctuates.
Okay, that’s an error bar. They’re like, “Oh, yeah, yeah, I get that.” But then
they don’t apply it to anything else. It only applies to houses. There are a
lot of challenges in that regard. There is some satisfaction, in that I
actually am educating people about better ways to think about things, and
better ways to interpret things. That’s where the satisfaction comes from. But there are very few people who
think like physicists on Wall Street. People do not think statistically
here. It’s just a very different mindset.
I’ll tell you a story about a very,
very large pension fund. It was an international organization, a multibillion-dollar
pension fund. What we were doing was collecting every one of their investments.
They had investments scattered across a couple thousand different mutual funds,
hedge funds, et cetera, and we gathered, on a daily basis, what securities do
they have in that account, in this account, in that account, and then doing the
analysis, aggregating all that up, and presenting them macro-level results of
what they’re sensitive to and what risks they may have, et cetera. Of course,
it didn’t start with complete transparency. Many of these funds said, “No,
we’re not giving you anything,” so data collection became a problem. As we were
going through it, we were actually having pretty good success with who was
willing to share information with us. After about a year, the guy who ran the
entire pension fund for this organization called me into his office to say he’s
canceling the contract, because he’s decided he doesn’t want that level of
information. He only wants to analyze them from a very opaque perspective of
what returns they post every month, rather than what investments they make every
day. I had a look on my face, kind of like what you do right now. Why would you
ever give up detail? And his justification was very simple: if I have that
level of detail, then I am ethically obligated to do something about it and
avert disasters. If I don’t have that level of detail, I can’t be blamed. He
actually said that to me.
Besides the fact that I lost a big
account, which, of course, is not a pleasant thing to hear, I’m hearing that
the justification for that is, “Damian, you’re trying to reveal truth, and I don’t want to hear
the truth.”
Q: I heard maybe a year ago that you were advising people who manage
$380 billion worth of assets. That’s a lot of responsibility.
Most of that money is pension
money. Less than half of it is in private investments, hedge funds, money
I’ll say is invested on behalf of people who can afford to lose it. The pension
funds, on the other hand, are literally the garbage collectors in every town,
the paramedics, police officers. These people don’t get paid a lot of money to
begin with, and they are dependent on that pension money so they actually can
retire and not sell their house and move into a cardboard box. There is a huge
ethical responsibility. The smartest people on Wall Street work for hedge funds. Hands down,
categorically, there is no question about that. Hedge funds attract the best
and the brightest, they pay the best, but you have to be very risk-tolerant to
work for a hedge fund, because lots of them go out of business in a given year.
But the truth is that the intellectual power is where the money is, where the
payments are, where the high salaries are, and the high stakes. That’s hedge
fund land, where most of the investors are very high net worth individuals or
corporations. I have intellectually challenging
conversations with my hedge fund clients on occasion. I am trying to get my
pension fund clients over the very basics of how to understand this stuff.
Q: If I sent a young person to you who has been studying physics and is
now interested in finance, what would you tell them and what would you ask
them?
I mentioned before that today
there are departments of Financial Engineering at universities. In the ‘90s,
when I made this transition, physicists and mathematicians were just being
introduced to Wall Street. Fast forward twenty years, and some of those people
made spectacular careers for themselves. One person in particular, a
theoretical physicist from Columbia. He joined Goldman Sachs and started
developing some volatility models for them. He made them a boatload of money,
so they paid him a boatload of money, and instead of retiring, he was invited
by Columbia to start the country’s first school of Financial Engineering.
Emanual Derman left physics and went to Wall Street, made phenomenal success
for himself, and now has been running this school for the last fifteen years,
where essentially he churns out Masters students who understand mathematical
modeling in finance. Top-notch Masters students. A lot of other schools compete
with them, so they now churn out Masters in Financial Engineering. There is now
an entire process by which one enters Wall Street as a “quant,” and it’s no
longer through physics or math, but through Financial Engineering.
The bad news is that there are not
nearly as many opportunities for physicists right out of physics to come to
Wall Street and do what I did twenty years ago. I was lucky enough to catch a
wave. I was in the right place at the right time. To be competitive on Wall
Street against those people, you actually have to learn finance and modeling
the way they have learned it, because they’re learning to speak finance and
math and analysis all at the same time. A physicist who comes to Wall Street
now looks more like a fish out of water. If you want to make the transition, if
you are a Ph.D. or a postdoc or a young professor who’s decided to go into
finance, unfortunately the route is now going through one of these programs, or
at least being conversant that way. I’m saying that with 90% confidence, so
some will be able to come in and get a job. There’s a polish that Wall Street expects, and a way to
communicate. You’re just much more successful if you have it, and the
cards are stacked against you if you don’t.
Q: After earning an undergraduate degree in physics, you could then go
get a Masters in Financial Engineering?
Absolutely. And I would say that
thinking like a physicist, not like an economist, is very important. I think an
undergraduate degree in Physics prepares you very well.
Q: I know family is very important to you. Could you speak to balancing
the competitive industry you’re in with life at home?
When I was in grad school, the
typical week was a 70 or 80-hour week. Most Saturdays, 12 or 14-hour days were
the norm. And not just for me, because I was trying to get through fast, but I
saw a lot of professors doing that. I saw 40, 50, 60-year-olds putting in those
kinds of hours, and I said, “Wow. Do I want to be spending my life that way?” If
you’re going to be successful in any career, it doesn’t matter what industry,
you’re going to be spending about that much time. I’ll say my commute is much
longer, because I live in New Jersey and I have to get into Manhattan. I’ve got
three kids, so I don’t live in Manhattan, which is prohibitively expensive. So,
I’m putting in similar hours, but the nice thing about Wall Street is weekends
are sacrosanct. Nobody works Saturdays and Sundays. Let me pause – investment
bankers work Saturdays and Sundays. But, that’s also a very high burnout job.
Investment bankers put in 80, 100-hour weeks, and that’s typically 25-year-olds
right out of M.B.A. programs. You can do that for three, four, five years, and
they’re getting paid oodles of money to do that. I really do mean that. The
starting salary in that kind of a profession is $300,000 a year. You’re able to
stock away a lot of money over four or five years, and then you will do
something else afterwards, because you just can’t keep up a 100-hour workweek
pace and survive. That’s one subpart of the industry that is known for
excruciating hours, but people only do stints for a couple of years there. For
most of the street, weekends really are your own. That’s kind of how I look at
it. Monday through Friday, I am in total work mode, but tonight I’m going to go
home, and probably make some sangria and sit down with my wife, and play some
sports with my kids. That’s what I’ll do all weekend. It’s not a bad work-life
balance.
Q: Is there anything you wanted to add?
Sometimes I’m asked if I used my
physics background in my career, and I kind of look at the person and I say,
“Well, since I only have a physics background, I have no other background on
which to rely, so of course I do.” I could not imagine living my life not
thinking like a physicist. There is a richness to this way of doing things that
I am so glad I was trained in. The undergrad experience was a very important
part of that, and going through the Ph.D. program changes the way you think. It
requires you to learn how to think in a very clear, both theoretical and
practical, way. You learn to understand where common mistakes are made, and how
deeply you need to push in order to really understand something. Very, very few people have the luxury
or the benefit of being able to think like a physicist. I’m actually
thrilled that I got that. That’s another reason I promote all that stuff about
science on Facebook. That way of thinking really lets you understand stuff
deeply. Now, I’ve attempted to apply that. One of the reasons I, personally,
think I’m successful is that I’m able to bring a viewpoint to my clients that
very few other people are able to bring. Regardless of what field people go
into, if they’re able to think like a physicist and keep thinking like a
physicist as they go through their careers, they can make a name for themselves
and establish a reputation that can bring a lot of value and a very rewarding
career.
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