The Influence of the Galactic Bar on the Dynamics of Globular Clusters
, Vladimir Korchagin 1,†, Anna Jmailova 2,†, Giovanni Carraro 3,†and Boris Jmailov 4
Round 1
Reviewer 1 Report
The manuscript presents a consideration of the influence of the Galactic bar onto dynamics of globular clusters, highlighting resulting uncertainties on recent claims on GC accretion events. The MS is useful for the readers and the comments are directly on improving the clarity of the presentation.
line 91 with with -> with
line 91 (highlighted by -> inside the
line 112 refrain this study to follow -> in this study we will refrain from
line 166 was adopted -> we adopted
line 168 estimated less value -> estimated the value to be lower
Eq.6 specify n
Caption of Fig.2: explain better what is plotted. Introduce angle \phi instead of its numerical value. The axis of bar rotation and the sign for rotation is hard to understand. Use of \omega in the Figure 2 vs use of \Omega in the text.
Fig.3 Add \phi to inserted box, which lists the solutions for different values of \phi
line 182: in our in -> in our
Fig.4-5 Consider using different symbols for different GC, as readers m.b. color blind (or print in grey scale)
line 222: affected by the influence of the -> affected by the
The statement contained in the lines 221-224 on significance of the influence of the MW bar. The reader is not provided with the quantitative value of a threshold above which the influence shall be considered significant and below which it shall be considered insignificant.
line 286 one take -> one takes
line 287:positions of clusters on ... diagram is not -> positions of clusters on ... diagram are not
line 292 together in tandem : use either one (together OR in tandem)
Fig.9 to back up authors statement about "impossible to discriminate between different parent merger events" it would be great to have a mark of typical size of the zones considered to the "different" for such an analysis.
Author Response
Please see the attachment.
Author Response File: 
Author Response.pdf
Reviewer 2 Report
Referee's report on the manuscript galaxies - 2139037,
'The influence of the Galactic bar on the dynamics of globular
clusters'
By: Tkachenko et al.
------------------
This is a concise paper convincingly showing that the varying potential
produce by the rotation of the MW bar significantly modifies the position
of its globular clusters (GC) in the Lz - E plane. This fact, together with
the observational errors, makes it imposible to use the position in this
plane for assigning individual GCs to particular merger events. Thus,
I do not hesitate to recommend the publication of the manuscript
once a few clarifications are included, and a large number of typos
and language difficulties are fixed. The main issues are in items
# 22, 27, 28, 31, 36, and 43.
1.- Introduction, first sentence.
'... and small galaxies [1,2].' -->
'... and small galaxies [1,2], as well as gas accretion events
[e.g., Dekel+09, Nat., 457, 451].'
2.- Introduction, 2nd paragraph, line 28.
'(GSE) accretion event [3]. A comprehensive study' -->
'(GSE) accretion event. A comprehensive study'
3.- Introduction, 3rd paragraph, line 31.
'Gaia mission' --> 'The Gaia mission'
4.- Introduction, 6th paragraph, lines 70 - 71.
'because calculation of JR and Jz values in the
non-axisymmetric and time-dependent potential
with elongated bar/bulge component is not possible.'
I think you should explain why.
5.- Introduction, last paragraph, line 75.
'different accretion events Malhan et al. [25]'
--> 'different accretion events [25]'
6.- Introduction, last paragraph, line 77.
'Hattori et al. [29], Hunt and Bovy [30]' -->
'Hattori et al. [29], and Hunt and Bovy [30]'
7.- Sect. 2, 1st paragraph, lines 91 - 92'
'together with ... taken from' -->
'together with their observational errors (in parentheses)
taken from'
8.- Sect. 3, 2nd paragraph, lines 94 - 96.
'adopt for Sun’s Galactocentric distance' -->
'adopt for the solar galactocentric distance'
'GRAVITY Collaboration ... Galactocentric' -->
'the GRAVITY Collaboration et al. [34], for the velocity components of the
Sun in the galactocentric'
It may be a good idea to split this long sentence
into several smaller, to facilitate reading.
9.- Caption of Fig1, 1st sentence.
'on (Lz,E)-plane' --> 'in the (Lz,E)-plane'
10.- Caption of Fig. 1, last sentence starting 'Dots show ..'.
It is a bit confusing. Please, reword. Something in the line of
'Dots show ...' -->
'The dots show one hundred randomly chosen globular cluster
locations consistent with the errors in Table 1. We have assumed
a normal distribution with the standard distribution set by the
errors.'
The same comment applies to the reference made in the text
in line 102.
11.- Sect. 2, last paragraph, lines 110 - 119.
'the authors Malhan et al.' --> 'Malhan et al.'
'We will refrain this study to follow this procedure, since'
-->
'We will refrain to follow this procedure in our study, since'
'in the non-axisymmetric' --> 'in an axisymmetric'
'that accreted almost' --> 'that were accreted almost'
12.- Sect. 3, 1st paragraph.
'using astrophysical package' -->
'using the astrophysical package'
13.- Sect. 3.1, lines 127 - 128.
'First model has an axisymmetric ... axisymmetric' -->
'The first model has an axisymmetric and time-independent potential,
whereas the second one has a non-axisymmetric'
'with elongated bar/bulge' --> 'with an elongated bar/bulge'
14.- Sect. 3.1.1, 1st sentence.
'Modeling the axisymmetric Milky Way ...' -->
'Following Malhan et al. [25], first we model the Milky Way using the axisymmetric
potential described by McMillan [39] (McMillan17). The model includes the bulge,
the thick and thin stellar disks, two gaseous disks (H I and H2), and the
dark matter halo.'
15.- Sect. 3.1.1, sentences after Eq. (1).
'where r′ = ... ; the' --> 'where r′ = ... , the'
'0.075 kpc correspondingly, rcut = 2.1 kpc and'
-->
'0.075 kpc, respectively, rcut = 2.1 kpc, and'
'gives the total bulge mass' -->
'gives a total bulge mass'
16.- Sect. 3.1.1 and throughout the text.
Use 'disc' or 'disk', but not both.
17.- Sect. 3.1.1, 3rd paragraph starting after line 139.
'subsystems, - the thin' --> 'subsystems, the thin'
'disks described by the density profile:' -->
'disks both described by density profiles with the form,'
'density respectively. Vertical scale' -->
'density, respectively. The vertical scale'
'are accepted to be equal to 2.5 kpc and 3.02 kpc
respectively.' -->
'are assumed to be 2.5 kpc and 3.02 kpc, respectively.'
'of the thin and of the thick disks Σ0,d,thin = 896'
-->
'of the thin and of the thick disks taken to be
Σ0,d,thin = 896'
'(can be estimated as' --> '('
'M_\odot respectively. The possible' -->
'M_\odot, respectively. A possible'
18.- Eqs. (2) and (3). Replace the final comma with a full stop.
19.- Sect. 3.1.1, 3rd paragraph starting in line 148.
'includes also two gaseous disks, - the atomic H I and
molecular H2.' -->
'also includes two gaseous disks; the atomic (H I) one and
molecular (H2) one.'
'by equation:' --> 'by the equation,'
'For HI disk' --> 'For the HI disk'
'For H2 gaseous disk accepted values' -->
'For the H2 gaseous disk the accepted values'
20.- Sentences after Eq. (4).
rho_0,h is not the 'central volume density' since
the central density goes to infinity in a NFW profile.
'the central volumen density' -->
'a characteristic scaling density'
21.- Sentences after Eq. (4).
Give the DM halo mass of the model.
22.- (I) Sect. 3.1.1.
Where are all the numerical values describing the
MW potential coming from? If they come from
MacMillan [39], say it explicitly. Otherwise, cite
the appropriate reference(s).
23.- Sect. 3.1.2, sentences before Eq. (5), lines 160 - 161.
'Following to ... Ferrers model [44]:' -->
'Following Chemel et al. [28] and Yeh et al. [43], we
approximate the bar/bulge by a rotating ellipsoid with
a density distribution given by a Ferrers model [44],'
24.- Sect. 3.1.2, line 162.
Take out the indentation of the sentence after Eq. (5).
25.- Sect. 3.1.2, sentences after Eq. (5).
'We choose the values for bar semi-axes' -->
'For the bar semi-axes, we choose the values'
'which gives good approximation for elongated
bar/bulge' -->
'which gives a good approximation for the
elongated bar/bulge'
'(see, for example Model M85' -->
'(see, for example, Model M85'
'of the bar equal' -->
'of the bar taken to be equal'
'estimated less value' -->
'estimated a smaller value of'
26.- Sect. 3.1.2, sentence right before Eq. (6).
'The potential satisfying equation 5 can be'
-->
'The gravitational potential produced by the
density in equation (5) can be'
27.- (I) Eq. (6).
The symbols 'm^2' is misleading since it was
already used in Eq. (4) with another meaning.
Please, change it.
28.- (I) Sect. 3.1.2 and Eq. (6).
Could you please give explicitly the time variation
of the potential, i.e., once the time variation
induced by the rotation of the bar is taken into
account.
29.- Fig. 2, caption.
'of Milky Way bar' --> 'of the Milky Way bar'
30.- Sect. 3.1.2, paragraph starting in line 174.
'Debattista et al. [52] was the first who estimated'
-->
'Debattista et al. [52] were the first to estimate'
'using VVV Infrared' --> 'using the VVV Infrared'
'DR2 proper motion' --> 'DR2 proper motions'
', Clarke et al. [53]' --> '. Clarke et al. [53]'
' model for the bar angular velocity the'
--> ' model the'
'Portail et al. [7,8], Bovy et al. [56]' -->
'Portail et al. [7,8] and Bovy et al. [56]'
31.- (I) Sect. 3.2 and Fig. 3.
Explain how rotation curves were derived.
32.- Sect. 3.2, starting in line 189.
'with elongated ... the mass' -->
'with an elongated bar/bulge whose mass is
about two times larger than the mass'
33.- Sect. 4, first two paragraphs starting in line 185.
'the dynamics of halo globular clusters' -->
'the dynamics of the halo globular clusters'
'Figure 4 ... galactic models' -->
'Figure 4 shows the (Lz, E)-positions of the globular clusters
calculated using data taken from Table 1 for barred and
non-barred galactic potential models'
'Figure 4 ... observational errors' -->
'Figure 4 also shows one hundred alternative positions
of each cluster considering observational errors'
' non-axisymmetric (left panel) models.' -->
' non-axisymmetric (right panel) models.'
(Although see the next item.)
34.- Fig. 4.
Change the layout so that the two panels lie on
top of each other rather than side by side.
35.- Fig. 4, caption.
'clusters on (Lz,E)-plane' --> 'clusters on the (Lz,E)-plane'
'and non-axisymmetric mode' -->
'and a non-axisymmetric mode'
36.- (I) Sect. 4.
Please, explain how do you integrate the orbits given the mass
distributions. A few references should suffice.
Do you integrate the orbits backwards of forward in time?
Even though it is not mentioned explicitly in the paper,
it seems that you integrate them forward in time, however,
you reach conclusions on the past arrival of the globular
clusters to the MW. Explain why you use a forward
integration in the analysis.
Why do you integrate for 4 Gyr? What is setting this
timescale? Please, explain.
37.- Sect. 4, 4th paragraph starting in line 209.
'includes rotating bar/bulge.' -->
'includes the rotating bar/bulge.'
'along the straight line' -->
'along a straight line'
'This is due to ... z-component ' -->
'This is due to the fact that in the non-axisymmetric
time-dependent potential, the z-component '
38.- Sect. 3.1.2, line 218.
Take out the indentation of the sentence after Eq. (9).
39.- Fig. 5, caption.
'Evolution of globular clusters' -->
'Evolution of the globular clusters'
'of the clusters in Lz on E-plane (' -->
'of the clusters ('
What is the frequency at which the GCs oscillate?
Period of the oscillation? You may want to
mention it explicitly.
40.- Sect. 4, sentence in line 223.
' It should also be noted, ... GSE group.' -->
' It should also be noted that some Pontus objects
reach energy values of the GSE group.'
41.- Sect. 4, sentence in line 227 - 229.
'To do this, ... calculate' -->
'To do this, we randomly generated one hundred sets
of the coordinates in the 6D phase space for each globular
cluster. They are drawn assuming gaussian errors in the
measured coordinates and velocities, and then we
calculate'
42.- Sect. 4, paragraph starting in line 230.
'and the total energy E of the ... conditions,' -->
'and the total energy E for the mean values of the
initial conditions,'
'to the equation 9' -->
'to equation (9)'
'Already ... range of values.' -->
'Already after 1-2 Gyr of evolution, the range of values
consistent the observational error is quite large.'
43.- (I) Fig. 6.
Why do the time variation show this stepwise
pattern? This issue should mentioned explicitly
in the text, and an explanation should be given.
44.- Fig. 6, caption.
What is t=0 in this plot. Please, mention it
explicitly.
'bar. Red line shows the orbit evolution' -->
'bar. The red line shows the evolution'
'the orbits by taking' --> 'the orbits taking'
'of the orbits ... proper motions.' -->
'of the orbits taking into account the observational
errors in coordinates and proper motions.'
'the black dotted line' -->
'the black dashed line'
'constant values for angular' -->
'constant angular'
45.- Sect. 4, paragraph starting in line 244.
'Figure 7 demonstrates the three' -->
'Figure 7 shows the three'
'Figure 8 shows the orbit of' -->
'Figure 8 shows the orbits of'
'Both figures ... of the cluster.' -->
'The mean orbits are shown in red line, whereas
one hundred alternative orbits consistent with
the observational errors of these initial
conditions are shown in black.'
'bar significantly chaotizes orbits' -->
'bar significantly randomizes the orbits'
What do you mean by 'destroys orbital boxes'?
Please, clarify.
'R vs z in the Figure 8)' -->
'R vs z in Figure 8)'
'Chemel 251 et al. [28], Hattori et al. [29]' -->
'Chemel 251 et al. [28] and Hattori et al. [29]'
'NGC 288 has small pericentric' -->
'NGC 288 has a small pericentric'
'of the bar ... distance the' -->
'of the bar will obviously decrease due to the increase
of the distance the'
46.- Fig. 7, caption.
'McMillan17(left) and ... of the cluster.' -->
'McMillan17 (left panel) and in the non-axisymmetric
rotating bar/bulge potential (right panel). The red lines
show the orbits for the mean initial conditions. The gray
lines show one hundred orbits consistent with the
observational errors in these initial conditions.'
47.- Fig. 8, caption.
'for axisymmetric potential ' -->
'for the axisymmetric potential'
'for non-axisymmetric potential' -->
'for the non-axisymmetric potential'
'Red lines show ... of the cluster.' -->
'The red lines show the orbit for the mean initial
conditions whereas the gray lines show one
hundred orbits consistent with the observational
errors in these initial conditions.'
48.- Sect. 4, paragraph starting in line 256.
'on evolution of the clusters (Lz, E)-plane.' -->
'on the evolution of the clusters in the (Lz, E)-plane.'
'orbits using ... cluster listed in' -->
'orbits using the errors in'
49.- Fig. 9, caption.
'after beginning ... cluster’s parameters.' -->
'after the beginning of simulations, taking into account
the non-axisymmetric potential of the rotating bar and
the observational errors of the initial conditions.'
50.- Sect. 4, paragraph starting in line 260.
'in Figure 9, with ... non-stationary' -->
'in Figure 9, which shows the evolution of the clusters
in the non-stationary'
'It appears impossible to conclude' -->
'It becomes difficult to conclude'
'belong to any specific accretion events,' -->
'belong to two different accretion events,'
Use GSE for Gaia-Sausage/Enceladus,
here and throughout the text.
'intersects with ... it cannot' -->
'overlaps with both groups. Thus, it cannot
'belong to the ... progenitor galaxies' -->
'belong to different accretion events and so to
different progenitor galaxies'
'object NGC 6864 belongs.' -->
'object NGC 6864 belongs to.'
51.- Sect. 4, paragraph starting in line 270.
'We can conclude therefore that' -->
'In more general terms, we conclude that'
'close enough passages' -->
'close passages'
'dwarf galaxy dynamical friction' -->
'dwarf galaxy, dynamical friction'
'of the former accretion events' -->
'of the original accretion events'
52.- Sect. 4, paragraph starting in line 275.
'clusters on Lz, E-diagram' -->
'clusters on the (Lz, E)-diagram'
'accretion and evolution' -->
'accretion and secular evolution'
53.- Sect. 5.
'we got to the conclusion' -->
'we conclude'
'We find that bar potential render the orbits'
-->
'We find that the bar potential renders
the orbits'
'of the clusters simultaneously, it is' -->
'of the clusters, it is'
'event or progenitor galaxies.' -->
'event or progenitor galaxy.' -->
'we provided strong evidences in this work'
-->
'in this work we provide strong evidence'
'together in tandem observational errors'
-->
'together with the observational errors'
'and showed that it is clearly' -->
'and clearly showed that it is'
Author Response
Please see the attachment.
Author Response File: Author Response.pdf
Reviewer 3 Report
I apologize with the authors for the delay in providing my report. The paper reads well apart few minor comments ( see below) and both problem and results are well stated and clear. Please address the following major comments in the next revision.
1.Major comment: The adopted galpy and symplectic integrators should be better described in order to understandmethod assumptions and results as well as their limits. Please do not assune all readers know the method assumptions and just summarize/comment on features and limits ( i.e. pro/cons) of the adopted tools.
2. This work has a dynamical approach to the problem, which is appropriate for stellar dynamics. Can you comment in the results section what is the possible impact of missing a full hydrodynamical approach when considering the interaction of globular clusters with bar and spiral arms? What correction or further confusion in the results do you expect?
MInor comments:
Page 2 line 39: that objects that ->that these objects have?
Page 2 line 42. "the our Galaxy" -> our Galaxy
All figures: asterisks -> stars?
Page 10 line 249: that bar -> that the bar
Author Response
Please see the attachment.
Author Response File: Author Response.pdf
