You can generate the values of `p`

using code like the following:

```
p <- 10^(seq(-4,0,0.2))
```

You want your x values to be evenly spaced on a log10 scale. This means you need to take evenly spaced values as the exponent for the base 10, because the log10 scale takes the log10 of your x values, which is the exact opposite operation.

With this, you are already pretty far. You don't need `par(new=TRUE)`

, you can simply use the function `plot`

followed by the function `points`

. The latter does not redraw the whole plot. Use the argument `log = 'x'`

to tell R you need a logarithmic x axis. This only needs to be set in the `plot`

function, the `points`

function and all other low-level plot functions (those who do not replace but add to the plot) respect this setting:

```
plot(p,trans, ylim = c(0,1), ylab='coeff', log='x')
points(p,path, ylim = c(0,1), ylab='coeff',pch=15)
```

**EDIT:** If you want to replicate the log-axis look of the above plot, you have to calculate them yourselves. Search the internet for 'R log10 minor ticks' or similar. Below is a simple function which can calcluate the appropriate position for log axis major and minor ticks

```
log10Tck <- function(side, type){
lim <- switch(side,
x = par('usr')[1:2],
y = par('usr')[3:4],
stop("side argument must be 'x' or 'y'"))
at <- floor(lim[1]) : ceil(lim[2])
return(switch(type,
minor = outer(1:9, 10^(min(at):max(at))),
major = 10^at,
stop("type argument must be 'major' or 'minor'")
))
}
```

After you have defined this function, by using the above code, you can call the function inside the `axis(...)`

function, which draws axes. As a suggestion: save the function away in its own R script and import that script at the top of your calculation using the function `source`

. By this means, you can reuse the function in future projects. Prior to drawing the axes, you have to prevent `plot`

from drawing default axes, so add the parameter `axes = FALSE`

to your `plot`

call:

```
plot(p,trans, ylim = c(0,1), ylab='coeff', log='x', axes=F)
```

Then you may generate the axes, using the tick positions generated by the
new function:

```
axis(1, at=log10Tck('x','major'), tcl= 0.2) # bottom
axis(3, at=log10Tck('x','major'), tcl= 0.2, labels=NA) # top
axis(1, at=log10Tck('x','minor'), tcl= 0.1, labels=NA) # bottom
axis(3, at=log10Tck('x','minor'), tcl= 0.1, labels=NA) # top
axis(2) # normal y axis
axis(4) # normal y axis on right side of plot
box()
```

As a third option, as you are importing ggplot2 in your original post: The same, without all of the above, with ggplot:

```
# Your data needs to be in the so-called 'long format' or 'tidy format'
# that ggplot can make sense of it. Google 'Wickham tidy data' or similar
# You may also use the function 'gather' of the package 'tidyr' for this
# task, which I find more simple to use.
d2 <- reshape2::melt(x, id.vars = c('v1'), measure.vars = c('v2','v3'))
ggplot(d2) +
aes(x = v1, y = value, color = variable) +
geom_point() +
scale_x_log10()
```