Golf: the neuroscience of the perfect putt
This article by , Lecturer in Performance Psychology, at the School of Sport, Health & Exercise Sciences is republished from under a Creative Commons license. Read the .
Sports fans across the world watched the American golfer Tiger Woods roll in a putt to win the season ending Tour Championship on September 23. His victory caps a remarkable comeback from personal struggles and injuries that caused him to plummet to 1,199 in the world rankings less than a year ago, and restores him as one of the world鈥檚 best.
With the PGA Tour finale now complete, the eyes of the golfing world move to Paris for the 鈥 golf鈥檚 biannual team contest pitching the best players from the USA against the cream of Europe. But what makes a successful golfer? My research explores the neuroscience of golf putting 鈥 and ways that the brain can be trained to increase putting success.
Golfers carry 14 clubs, but the putter is by far the most used, . Successfully striking the 1.68-inch diameter golf ball into the 4.25-inch golf hole requires precision programming of force and direction. You have to take into account factors such as slope, direction of the blades of grass and weather effects including temperature, wind and rain.
My research has identified , produced by electrical pulses resulting from brain cells communicating with each other, that can predict golfing success. They can easily be recorded by simply putting sensors on the scalp. In a brain imaging study where 20 expert and novice golfers each hit 120 putts, I found that the intensity of activity of a brainwave at the frequency of 10-12 Hz, recorded before the backswing, could clearly distinguish putts that went in the hole from those that missed.
More specifically, intense activity at sensors placed on frontal parts of the scalp, over the , was key for putting success. This finding has since been , which also found that reduced activity at sensors placed on the parts of the scalp (close to the left ear) can further contribute to the recipe for proficient putting.
This makes sense, as the premotor cortex is implicated in movement planning, and the left-temporal region is associated with verbal-analytic processing. So it looks as if the brain intently focuses on accurately planning force and direction, while blocking out verbal intrusions, immediately before successful putts.
Training the brain to drain putts
Having identified neural signatures associated with putting success, scientists are now exploring whether you can train golfers to produce this pattern of brain activity and recognise what it feels like. The trick is to only hit putts when the appropriate activation-level is produced (when they are 鈥渋n the zone鈥).
Such brain training can be achieved using a technique called 鈥渘eurofeedback鈥, which involves measuring brain activity and displaying it back in real time (in the form of auditory tones, or graphs on a computer screen) so that recipients can develop ways of consciously controlling their brain activity levels. It may seem far fetched, but the technology and equipment are readily available, portable and relatively cheap 鈥 starting at less than 拢300 for a wireless electroencephalographic (EEG) neurofeedback headset.
In a 2015 study, I used wireless neurofeedback technology to train 12 amateur golfers of brainwaves that I鈥檇 previously associated with success before they hit putts. This took place during three separate one-hour training sessions. On their return to the laboratory a few days later, the golfers were able to reliably produce the pattern of 10-12 Hz brain activity that I had prescribed.
What鈥檚 more, their putting had improved (on average, 8ft putts finished 21% closer to the hole after the training). Admittedly though, this was not to a sufficient extent to exclude the possibility of a placebo effect. Notwithstanding, the results are encouraging, and have been from researchers in other parts of the world.
From the lab to the golf course
Jason Day says he does brain training. : Keith Allison/wikipedia, CC BY-SAWhile the scientists are still experimenting before making firm and unequivocal statements about neurofeedback鈥檚 effectiveness, there are some members of the golfing elite who are already convinced of the benefits of brain training. Australian Jason Day, the current world number 11, has used neurofeedback for a number of years and said that it has yielded 鈥. So it may be no coincidence that he was on the 2018 PGA Tour.
Meanwhile, a more recent convert who鈥檒l be on show in Paris is American Bryson DeChambeau. The current revealed details of his brain training regime in August 2018, before winning two out of the four season-ending playoff events. With 21 professional victories between them, Day and DeChambeau are certainly doing something right.
Much is made about the Ryder Cup being a team event, a stark diversion from the individual contests that characterise regular tournaments on the PGA and European Tours. While this undoubtedly adds new dynamics that capture the attention of the sporting world, it will still, in all likelihood, boil down to an individual putt by an individual player to determine which continent lifts golfs鈥 premier prize.
As a proud European, I hope that player is wearing European blue, and can optimally shape his 10-12Hz brainpower during those crucial final moments before his swing.
Publication date: 28 September 2018