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Think as an experimental particle physicist: results! February 27, 2009

Posted by dorigo in games, humor, physics, science.
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I know you are impatient, and the weekend is coming, so while I still hope more of you will leave their results in the comments thread, I give below the key to compute the score of the two-part test I offered in the two previous posts. Each answer has from zero to three of the following symbols: E,T,S,C,D. Just sum each category for now:

(more…)

Think like an experimental particle physicist – second (and last) part February 27, 2009

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While putting together the scores to evaluate the answers to the 11 questions of the previous post, I realized that they are not enough for a fair classification. So here are a few more quizzes for those of you who found my effort worth paying back with five more minutes of your time.

  • K) You are found in the library of your Department. Why was that ?
  1. Why, I had an hour to kill…
  2. I am just checking out the new librarian (he/she’s cute).
  3. They told me there are coupons to cut away for free radioactive samples on this month’s issue of Physics Today.
  4. They threatened to expel me if I did not bring back the overdue copy of DH. Perkins’ book.
  • L) How much is 87 times 945 ?
  1. About 80 thousand.
  2. About 82 thousand.
  3. I left my pocket calculator in the office upstairs.
  4. (after a minute)  82,215  (ignore my fast breathing).
  5. 82 215 (mind the space -I take pride in following AIP style rules!).
  6. More or less 10^5.
  • M) The mean-looking airport cop finds an electronic board wrapped in a sweater in your carry-on.
  1. You go back to the check-in counter: you came early on purpose.
  2. You try to explain it is innocuous HEP hardware.
  3. You manage to power it up by fiddling with the laptop power cord to show the two-digit LCD mounted on it does come alive.
  4. You start arguing that the sign with red crosses on lighters, firearms and batteries mentions nothing even vaguely resembling a CAMAC module.
  5. You let them dump it, too bad for science -and whoever uses CAMAC nowadays, after all.
  • N) Your paper draft receives really nasty comments from your collaborators
  1. You write down the names of the bad guys on your small red booklet in the bottom drawer – their time in front of the muzzle will come one day!
  2. You answer in kinds on a rage, with carbon-copy to the spokespersons, making a fool of yourself.
  3. You answer as politely as you can in a very detailed manner, cursing yourself softly while you feel like you’ve bent over.
  4. You decide the paper really is not worth that much and forget about it for a month or two.
  • O) After your presentation is over,  the session convener asks a tough question and you do not even know what he or she is talking about.
  1. You say you do not know the answer and display your best smile, hiding the sweating.
  2. You repeatedly pretend you did not understand the sentence until he or she decides it’s time to move on.
  3. You think it wasn’t such a good idea to grab that last-minute chance for a plenary talk.
  4. You go to a random back-up slide and discuss it in detail for five minutes, trying to look meaningful.
  • P) A science reporter calls and asks you information on the  hunt for supersymmetry.
  1. You feel flattered, get carried away, and end up disclosing reserved information from your experiment.
  2. You direct him or her to the experiment spokespersons.
  3. You pretend you’re the switchboard operator.
  4. You ask what magazine is that for, and after hearing it’s “New Scientist” you hang up.
  • Q) They sent you a paper to be reviewed. It sucks big time.
  1. Feeling true to your duties, you implacably point out each and every imperfection with rigor and an occasional bit of sadism.
  2. You reckon nobody’s going to read the paper anyway, so you send back two lines saying the paper looks ok but would they please use AIP style rules ?
  3. You are fought between your duties and your compassion for the poor post-doc who did most of the work  to get the paper to your desk, and try to balance the two things, ending up screwing both -the author feels raped and the paper does not get any better from your review.
  4. You would never accept to get into an editorial board, it’s just such a waste of research time.
  • R) You are on owl shift and your colleagues are out of the room for coffee and cookies, when every screen turns red, alarms sound, and an ominous-looking warning sign start flashing on the silicon cooling contol panel.
  1. You run to the silicon crash button and press it.
  2. You silence all alarms and fetch the emergency procedures folder, then start reading it
  3. You rush to call your colleagues.
  4. You sneak out, join your colleagues and serve yourself a coffee, then look over the glass door and mention there appears to be  something flashing inside as if you just noticed it.
  • S) You feel you think like an experimental particle physicist because…
  1. You do not work in HEP, but at least one answer in each of the 19 questions above made a lot of sense to you
  2. You read this blog and you think it really does not take much to be a HEP physicist.
  3. You are a theorist and although you have trouble with practicalities you think experimentalists have similar thinking processes.
  4. You are a scientist from another field and you know how to tie your shoes.
  5. You are a scientist from another field and you wear sandals.
  6. You are sure you do not think like an experimental particle physicist in the least.

Think like an experimental particle physicist! February 26, 2009

Posted by dorigo in games, humor, physics, science.
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In my ongoing effort to convince my readers that experimental high-energy physics is easy and fun, and to make it more appealing to everybody, I am presenting you with a small test, which should measure your ability to think as an experimental particle physicist. These questions  should be enough to sketch your profile as a HEP worker. You are invited to use five minutes of your time to give your answers in the comments thread below. I will provide results in a couple of days.

  • A) You need to insert in your analysis code the width of the Z boson. What do you do ?
  1. you google “Z boson width”
  2. you go to pdg.lbl.gov and download the Z boson table
  3. you dig under a pile of preprints for your copy of the PDG booklet
  4. you write “=1.0; // REVISE: Z boson width!!! ” and leave it to a better day
  • B) What is the muon mass ?
  1. 0.105658367 GeV
  2. 0.105658367 GeV/c^2, silly you
  3. 105.658367 MeV/c^2
  4. 0.1134289256 u
  5. “sqrt(0.01116369);” which is a number you retrieved from an old piece of code
  6. about 100 MeV, give or take a few
  • C) How does the Higgs boson decay to a pair of photons ?
  1. by first splitting into a pair of top quarks
  2. by first splitting into a fermion loop
  3. by first splitting into a pair of W bosons
  4. it cannot, the Higgs is not electrically charged
  • D) A primary cosmic ray with an energy of 10^17 eV hits the atmosphere. It is determined to be a neutron.
  1. it must come from inside our galaxy
  2. it is a Nobel prize winning discovery
  3. it produces a shower like a proton would
  4. all of the above
  5. all of the above except 1.
  6. all of the above except 2.
  • E) A detector is being decommissioned and is being taken apart at a facility near your office.
  1. you wear a surgical mask when you walk by -activated powder might be dangerous
  2. you drop by and try to scavenge a gadget or two
  3. you mail the ex-spokesperson to ask for those yellowed scintillator planes
  • F) The code won’t compile…
  1. you check the error messages carefully
  2. you try it on a different account
  3. you hit the “save” button on your editor again and retry
  4. you go to the coffee machine and ponder
  • G) You are scheduled to talk at a conference, on a topic that is not your own
  1. you start reading material one month before
  2. you start looking for slides on the same topic a week before
  3. you email the authors of the relevant analyses for help four days before
  • H) You are on day shift at your experiment next October. What is your main worry right now ?
  1. Get on par with the latest safety procedures and make sure your training has not expired
  2. Find a substitute for that week for your course of the first semester
  3. Find the cheapest flight early on
  4. Look for entertainment options for all those evenings
  • I) You walk by a colleague’s desk in the evening and find out he’s not logged off his account.
  1. you use his email to send himself a reminder
  2. you log him off
  3. you notify the sys admin
  4. you open his mozilla browser to a porn web page
  5. you go back to your own desk, remembering you did not log off either
  • J) A histogram of the invariant mass of jet pairs  in events containing just two energetic jets shows a compelling peak at 120 GeV.
  1. It’s the higgs!
  2. It is a statistical fluctuation
  3. It is a bug in your code
  4. This was a sample of Z boson decays to electron-positron pairs, and those are electrons corrected as if they were jets
  • K) What does a significance of three sigma mean ? Four sigma ? Five sigma ?
  1. something not so rare; something quite rare; something exceptionally rare.
  2. evidence of some new phenomenon; strong evidence of same; observation of new physics!
  3. evidence of something fishy;  a bug in the code; a horrible bug in the code.

Greek lessons online February 22, 2009

Posted by dorigo in internet, language, travel.
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Just a short entry today, to mention that I found an excellent resource on the web to learn modern greek. The site is completely free, and it makes available to users a full set of audio lessons, complete with study material. The lessons are easy to follow -I listened to four of them this afternoon already.

The site is http://www.kypros.org/LearnGreek/ . Have a look…They deserve some advertisement. You need to register but everything is free of charge.

A pretty knight journey February 21, 2009

Posted by dorigo in chess, games, personal.
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I give below the moves of a blitz game I played tonight on the Internet Chess Club. The moves are not accurate, as we had just five minutes each to complete the game, and we are both dilettantes. But the attack I played was so simple it played itself, so maybe this is a good training example… I am white against a first-category player (HerrTrigger his ICC handle).

1.e4 e5 2.Nf3 Nc6 3.d4 exd4 4.Nxd4 Nf6 5.Nxc6 bxc6 6.Nc3 Bb4 7.Bd3 0-0 8.0-0 d5 9.exd5 cxd5 10.Bg5 c6 11.Qf3,
Up to now, nothing of our own making – you can find the above sequence on any chess opening book. It is called “Scotch game”; this particular variation is not known for causing black any particular opening problem, but white’s setup is solid and lends itself to a quick kingside surge, if black does not play the most accurate moves.

11….Bd6
Sub-optimal. Black has to be careful of his dark squares, and the pin of the Nf6 required more attention. Now white gets a clear initiative.
12.Ne2!
The start of a straightforward idea – Ne2-d4-f5 will further weaken the dark squares around the black king.
12…. Rb8 13.Nd4
Now Nxc6 is threatened, and the queen cannot defend the pawn since it is tied to the defence of the Nf6.
13….Bb7?
But this is surely a mistake. Black places the lightsquared bishop on a passive square, blocking the open b-file for some counterplay by the Rb8, and totally leaves the f5 square undefended.
14.Nf5 Be5

This is the position bfore the  start of the final attack. First of all, the black bishop is targeted, gaining a tempo with the rook.
15.Rfe1 Qc7
Now black threatens Bxh2+, but this is not really a problem for white. Instead, the logical conclusion of the knight manouver is in the air…
16.Nh6+!
If now black takes the N, white wins both by 17.Qf5 and by means of the pretty 17.Rxe5! Qxe5 (17…. hxg5 18.Rxg5+ Kh8 19.Qxf6 mate) 18.Bxf6, and black is soon mated (18…Qe6 19.Qg3+).
16….Kh8 17.Bxf6!

The simplest way to win. Black resigned, since on both 17….Bxf6 and 17….gxf6 there follows 18.Qf5 and there is no way to avert Qxh7 mate, while on 17….Bxh2+ 18.Kh1 Qf4 19.Qh5 Qxf6 (19….Qxh6?20.Qxh6) 20.Nxf7+! Kg8 21.Bxh7+ is mate. The Nc3-e2-d4-f5-h6 manouver is pretty in this game, since all the moves are active, and by threatening in turn the c6 pawn, the d6 bishop, and the king the knight takes the lion’s share of merit for the attack.

One word of warning: the above variations are the result of some thoughts on the game diagram, without even moving pieces on a real chessboard, let alone running a check with Fritz. So I am most likely going to be refuted by deeper silicon analysis… To me, the game and the variations still look quite logical in their development and conclusion!

Anybody with an AAAS subscription willing to do me a favor ? February 20, 2009

Posted by dorigo in news, personal, physics, science.
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Here I am, once again improperly and shamelessly using this public arena for my personal gain. This time, I need help from one of you who has a subscription to the American Association for the Advancement of Science.

It so happens that a couple of weeks ago I gave a phone interview to Adrian Cho about the LHC, the Tevatron, and the hunt for the Higgs boson. We discussed various scenarios, the hunt going on at the Tevatron, and other stuff. I am curious to know what Adrian made of our half-hour chat. Today, I realized that the article has been published, but I have no access to the it, since it is available at the Science Magazine site only for AAAS members.

I have to say, Adrian should have been kind enough to forward me a copy of the piece that benefitted from the interiew. I am sure he forgot to do it and once he reads this he will regret it, or maybe he thinks I am a member of the AAAS already… Adrian, you are excused. But this leaves me without the article for a while, and I am a curious person… So if you have an AAAS account and you are willing to break copyright rules, I beg you to send me a file with the article! My email is dorigo (at) pd (dot) infn (dot) it. Thank you!

And, to show you just how serious I am when I say I am shameless, here’s more embarassment: if you are a big shot of the AAAS, do you by any chance give free membership to people who do science outreach to the sole benefit of the advancement of Science  ?

UPDATE: I am always amazed by the power of internet and blogging. These days you just have to ask and you will be given! So, thanks to Peter and Senth, I got to read the article by Adrian Cho.

I must admit I am underwhelmed. Not by the article, which is incisive and to the point. Only, I should know that science journalists quote you for 1% of what you tell them, and use the rest to get informed and write a better piece. In fact, the piece starts by quoting me:

“Three years ago, nobody would have bet a lot that the Tevatron
would be competitive [with the LHC] in the Higgs search. Now I think the tables are almost turned,” says Tommaso Dorigo, a physicist from the University of Padua in Italy who works with the CDF particle detector fed by the Tevatron and the CMS particle detector fed by the LHC.

… but that is the only quote. I can console myself by noting I am in quite good company: experiment spokespersons, Fermilab director Pier Oddone, CERN spokesperson James Gillies…


Comet Lulin is a naked-eye object! February 19, 2009

Posted by dorigo in astronomy, news, science.
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Comet Lulin (C/2007 N3) is approaching the minimum distance from our planet – the conjunction will occur on February 24th at a distance of 61 million kilometers- and is already a naked-eye object in the sky, glowing at a visual magnitude of +5.6 with what is described as a bright green colour. The coma has a diameter of 20 arcminutes (two-thirds of the Moon’s diameter). As you can see from Jack Newton’s picture below, the comet shows both a tail and an anti-tail, with a bright oval coma.

The conjunction is very convenient given the absence of any moonlight, and its position in the sky, almost perfectly in the opposite direction with respect to the Sun.  A pair of binoculars, even low-power ones, will reveal the comet easily from your back yard even in light polluted areas, while under dark skies you should be able to detect the comet even with the unaided eye; a telescope should be used with low magnification to show the comet in all its glory.  The object moves quickly in the sky, and its apparent motion is easy to detect if you have patience to observe the comet for a while.

You can find the comet in Libra today and tomorrow (check the map below -click to enlarge), while at conjunction on Feb 24th it will be in Leo, just a few degrees due South of Saturn. In a few days its brightness could increase by another magnitude (magnitudes in the chart are not necessarily correct).

For a beautiful gallery of images of this beautiful comet, I advise you to visit the Spaceweather site.

Not a normal country – but maybe an amusing one February 18, 2009

Posted by dorigo in humor, news, politics.
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In the news today: the british lawyer David Mills has been found guilty yesterday of accepting at least 600,000 dollars in 1998 to produce false testimony, in order to help Silvio Berlusconi get acquitted in two separate trials where he was charged for corruption and other frauds -business as usual, for him.

The news is rather curious for two reasons. The first one is technical: in the trial, Mills and Berlusconi were being judged together, but the latter was excluded by virtue of a law, the infamous “lodo Alfano“, which the italian government passed a few months ago, and which prevents the Prime Minister (along with the President of the Republic, and the heads of the two parliament chambers) from being tried during his or her mandate.

Thanks to that ad hoc law, produced by a member of Berlusconi’s party-company, Forza Italia, and passed with urgency through the legislative iter, Silvio Berlusconi evaded a sure embarassment and the probable sentence of guilt for corruption in Mills’ favor. The aftermath of all this is that we now have a person who received money to produce false testimony and save Berlusconi in his two processes, but we cannot try who gave him the money. Note, the sentence says who Mills received money from -Silvio Berlusconi- but the corruptor is left out of the whole business. I find this peculiar.

The other detail is more hilarious -I would say Jonescan. David Mills, besides a 54-month imprisonment, faces the unpleasant charge of having to give 250,000 euros to the italian Premier’s office. That is because the italian State’s Bar, which represented the Premier’s office at the trial, obtained the sum as a reparation. So Mills received money by Berlusconi. He was condemned, Berlusconi got away with it, and now Mills has to go to the italian premier and
say, “Dear italian premier, here is the reparation money -but wait a second, haven’t we met already ?“.

Italy is not a normal country: in a normal country, a prime minister would have resigned from office, having been proven a corruptor. Not in Italy: here, if you get away with your sins, you are considered kind of cool.

But Italy is also a definitely entertaining country: for its politics, and for some of its politicians.

Guest post: Marco Vedovato, “Jupiter: a little analysis about the GRS-LRS encounter” February 15, 2009

Posted by dorigo in astronomy, news, physics, science.
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Marco Vedovato, in his daily life, is a structural engineer. As an amateur astronomer, when his children allow him to do this, his main interest is the atmosphere of Jupiter, the giant planet of the Solar System, and he partecipates, as a measurer, to the Jupos Project, an international investigation about Jupiter. He is also the vice-manager of the Jupiter Program for the Italian Amateur Astronomic Union. When I saw his extremely interesting analysis of the Jovian atmosphere I begged him to write about it for this site. You can find the resulting piece below.

Last year I amused myself to analyze one aspect of the encounter between two Jupiter spots. For this aim, I used WinJupos, a software for measuring the Jupiter images (see here). In the following picture, a map composed by using some very good images, the reader will be able to meet the protagonists of this tale (click on the picture to get the full image!):

The first one is the famous Great Red Spot (GRS), a long-lived anticyclonic circulation, centered around -22,5ø South latitude, existing at least since the second half of 18th century. The second one is a smaller reddish spot (LRS, Little Red Spot), probably born around the end of 2007 and the beginning of 2008, a residue of a previous “Tropical Disturbance”, observed during the 2007.

It is well-known that the GRS has a 90-days oscillation around its mean motion in the Jupiter outer atmosphere; having a look to the map above, GRS is moving very slowly in longitude (with the same latitude) from left to right, forward to the increasing longitudes (retrograde motion). This lazy motion is not constant but presents an oscillation around the main drift. In the following graph the red points are the GRS center, the ones on the left (blue) and right (green) side are the ends of GRS; it is easy to note a period close to 90 days.

Instead the LRS moved in the opposite direction (prograde motion) than the GRS (and with higher speed), so an encounter was inevitable. In the the picture below, a graph I obtained before the encounter, using few points but from very good images (i.e. those of C. Go, F. Carvalho, A. Wesley, G. Grassman and others). I noted, also in the LRS case, an oscillation around the interpolating line.

After the encounter the LRS was quickly destroyed. The following graph documents the collision.

I was interested to see if this LRS oscillation were similar to the GRS one, with the same period and if in phase or not. So I matched “in parallel” the relative motions (by using a modified reference system for the LRS, artificially changing its speed, to have more or less the same slope for both the drifts); a light correlation between the two oscillations seems noticeable. I do not know whether the effect is casual or if it is real. In this last case, are the two oscillations determined by a same cause, hidden in atmospheric currents embedded in deeper layers?

John Rogers, Jupiter director of the British Astronomical Association, wrote me this comment: “Very interesting. Perhaps the oscillation of the GRS has an effect on the nearby LRS? Or perhaps the synchrony is a coincidence — it is difficult to say!

I’ll have to prepare further analysis when there will be similar opportunities.

(Marco Vedovato)

The 1999/2003 Higgs predictions compared with CDF 2009 results February 13, 2009

Posted by dorigo in news, personal, physics, science.
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Two years ago I used the combined Higgs search limits produced by the D0 experiment to evaluate how well the Tevatron was doing if compared with the predictions that had been put together by the 1999 SUSY-HIGGS working group, and later by the 2003 Higgs Sensitivity Working Group (HSWG), two endeavours to which I had participated with enthusiasm. The picture that emerged was that, although results were falling short of justifying fully the early predictions, there was still hope that those would one day be vindicated.

Indeed, I remember that when in 2003 the HSWG produced its report, we felt our results were greeted with a dose of scepticism. And we ourselves were a bit embarassed, because we knew we had been a bit optimistic in our predictions: however, that was the name of the game – looking at things on their bright side, for the sake of convincing funding agents that the Tevatron had a reason to run for a long time. I felt a strong justification for being optimistic in the incredible results on the top quark mass that the Tevatron had already started achieving: early prospects of measuring the top mass to a 1% uncertainty have in fact been surpassed by the combination of dedication of the scientists doing the analyses, and their imagination in inventing new precise methods.

We now have a chance to look back at the 1999/2003 predictions for the Higgs reach of the Tevatron with a rather solid set of hard data: the CDF combination, which I briefly discussed two days ago, is based on analyzed sets of data ranging from 2 to 3 inverse femtobarns, and the comparisons do not require a lot of extrapolations to be carried out.

If we look at the 1999/2003 predictions shown above (two basically coincident results, if one considers that the 2003 results were not accounting for systematic effects, which would worsen a bit the curves of sensitivity and bring them to match the older ones), we can read off the integrated luminosity that the Tevatron experiments needed to analyze in order to exclude, by combining their results, SM Higgs production at 95% confidence level. These numbers are as follows: for a Higgs mass of 100 GeV, 1/fb was considered sufficient; for a Higgs mass of 120 GeV, 2/fb were needed; 10/fb at 140 GeV; 4.5/fb at 160 GeV; 8/fb at 180 GeV; and 80/fb at 200 GeV. You can check them on the purple band in the graph above.

Now, let us take the actual expected limits by CDF with the analyses and the data they have based their new result upon (using expected limits rather than observed ones is correct, since the former are unaffected by statistical fluctuations). At 100 GeV, CDF has a reach in the 95%CL limit at 2.63xSM; at 120 GeV, the reach is 3.72xSM; at 140 GeV, 3.61xSM; at 160 GeV it is 1.75xSM; at 180 GeV 3.02xSM; and at 200 GeV, the reach is at 6.33xSM.

(Below, the 2009 combined CDF limits are shown by the thick red curve; the data I list above is based on the hatched curve instead, which shows the expected limit.)

How do we now compare these sets of numbers ?

Easy. As easy as 1.2.3.4 (well, not too easy, but that’s how it goes).

  1. We first scale up by a factor of two the 1999/2003 luminosity numbers needed for a 95% CL exclusion, which we listed above. We thus get, for Higgs masses ranging from 100 to 200 GeV in 20-GeV steps, needed integrated luminosities of 2,4,20,9,16,160/fb.
  2. Then, we take the actual luminosity used by CDF for the analyses that have been combined to yield the expected limits listed above. This is slightly tricky, since the combination includes analyses which have used 2.0/fb of data (the H \to \tau \tau search), 2.1/fb (the VH \to ME_T b \bar b search), 2.7/fb (the WH \to l \nu b \bar b, the ZH \to ll b \bar b, and the WH \to WWW searches), and 3.0/fb (the H \to WW search). In principle, we should weight those numbers with the relative sensitivity of the various analyses, but we can approximate it by taking an “average effective luminosity” of 2.4/fb for the 100 GeV Higgs search, 2.7/fb for the 120 and 140 GeV points, and 3.0/fb for the high-mass searches. This is appropriate, since the H \to WW search starts kicking in above 140 GeV.
  3. We now have all the numbers we need: we divide the expected luminosity needed for one experiment by the 1999/2003 study, found at point 1 above, by the effective luminosities found at point 2, and take the square root of that number: this means finding the “reduction factor” in the sensitivity that the actual CDF data suffers with respect to the data needed to exclude the Higgs boson. We find a reduction factor of 0.91, 1.22, 2.72, 1.73, 2.31, and 7.30 for Higgs masses of 100,120,140,160,180, and 200 GeV respectively.
  4. Now we are done. We can compare the “times the SM” limits of CDF with the numbers found at point 3 above. The ratio of the two says how much worse is CDF doing with respect to predictions, for each mass point. We find that CDF is doing 2.88 times worse than predictions at 100 GeV; 3.06 times worse than predictions at 120 GeV; 1.33 times worse at 140 GeV; 1.01 times worse at 160 GeV; 1.31 times worse at 180 GeV; and 0.87 times worse (i.e., 1.15 times better!) at 200 GeV.

The results of point 4 are plotted on the graph shown above, where the x-axis shows the Higgs mass, and the y axis this “shame factor”. I have given a 20% uncertainty to the figures I computed, because of the rather rough way I extracted the numbers from the 1999/2003 prediction graph. If you look at the graph, you notice that the CDF experiment has kept its (our!) promise (points bouncing around a ratio of 1.0) with its high-mass searches, while low-mass searches still are a bit below expectations in terms of reach (3x worse reach than expected). It is not a surprise: at low Higgs mass, the searches have to rely on the H \to b \bar b final state, which is very difficult to optimize (vertex b-tagging, dijet mass resolution, lepton acceptance are the three things on which CDF has been spending hundreds of man-years in the last decade). Give CDF (and DZERO) enough time, and those points will get down to 1.0 too!

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