The Story of the Atlantic Telegraph

This was the great barrier to the city's growth, and must be removed if it was not to be stunted and dwarfed by these limitations. To furnish some relief, an elevated railroad, built on stilts, had been attempted on a small scale, but soon broke down, when Mr. Field bought the control of the whole concern, and took it in his own strong arms. It was no easy matter to galvanize it into life, for though it had a charter, it was still obstructed in the legislature, and in the courts, so that it was a long time before he could get full possession. But once master of the situation, he undertook the work on a grand scale, and pushed it with such vigor that in less than two years the road was in operation. It has since been extended with the public demand, until now (in 1892) there are thirty-six miles of road, over which the trains sweep incessantly from the bay to the river, and from the river to the bay.

The structures are not indeed the most graceful in the world, as they bestride the long avenues of the city. But these tall iron pillars, that line our streets for miles, are the long legs of civilization, and have a somewhat imposing effect as they stretch away into the distance, with the fire-drawn cars flying swiftly over them. Dean Stanley glorified them by a historical parallel which could occur only to one full of the wonders of ancient times, that started into life under the touch of his imagination. Going with him one day on an excursion, he stepped briskly (for his frame was so light as to offer little impediment to motion), and as he mounted the long stairway, and stood on the platform above the crowded street below, he exclaimed, "This is Babylonian! Four chariots driving abreast on the walls of the city!"

But Babylonian or American, the success was enormous. As soon as the public became familiar with these elevated roads, and felt that they were safe as well as swift, the people swarmed upon them, in numbers constantly increasing, till now they carry over seven hundred thousand passengers a day! On the day of the Columbus celebration (October 12th) it was a million and seventy-five thousand! Indeed, if we are not staggered by numbers, we may sum up the whole in the amazing statement demonstrated by figures, that since these roads were opened, they have carried over eighteen hundred millions of passengers, more than the whole population of the globe!

Nor should it be forgotten that, not only is the facility they afford the greatest, but the fares the lowest, for, thanks to Mr. Field, they were reduced years ago to five cents at all hours and for the longest distance, the ten miles from the Battery to the Harlem river.

The effect was immediate in the appreciation of real estate in the city, the assessed value of which has already advanced by the sum of five hundred millions of dollars! The increased taxation is enough to pay for all the cost, while as a relief to the congested parts of the city, and as furnishing a means for that easy circulation, which is as necessary to a great city as a free circulation of the blood is to the human body, it is not too much to say that the construction of the elevated railroads is the greatest material benefit that has ever been conferred on the city of New York.

But busy as Mr. Field was through all these years, much of his life was spent abroad. He had interests on both sides of the Atlantic, but stronger than his interests were his friendships to attract him across the sea. He had come to feel as much at home in England as in his own country: and his visits were so frequent that his sudden appearances and disappearances were a subject of amused comment to his English friends. When Dean Stanley was in America, a reception was given to him at the Century Club, where in a very happy address, he referred to the ties between the two countries, among which was "the wonderful cable, on which it is popularly believed in England, that my friend and host, Mr. Cyrus Field, passes his mysterious existence, appearing and reappearing at one and the same moment in London and in New York!"

As Mr. Field was thus brought near to his English friends, they in turn were brought near to him, for as no man in America was better known abroad, no house received more foreign guests, many of whom he had not met before, but who brought letters to him, and there was no end to his hospitality. John Bright he could not persuade to cross the sea; but he had the pleasure to welcome his co-laborer in the repeal of the Corn-laws, Richard Cobden. The house in Gramercy Park became famous for its receptions. Many will recall that given to the Marquis of Ripon and the other High Commissioners, who came a year or two after the war, as representatives of the British government, and negotiated at Washington the treaty which settled the Alabama claims; and those to Dean Stanley and Archdeacon Farrar; and to many others. If the strangers happened to arrive in the summer time, they were entertained at his beautiful country seat on the Hudson, to which he had given the name of "Ardsley," from the seat of John Field the astronomer, who lived in the West Riding of Yorkshire more than three centuries ago, and introduced the Copernican astronomy into England, and from whom the family are descended.

In some cases when he went abroad, England was but the starting point for excursions on the Continent, in which he visited almost every European country. In 1874, in company with two well-known Americans, Bayard Taylor and Murat Halstead, he made a voyage to Iceland, as ten years before he had been to Egypt, as a delegate from the New York Chamber of Commerce, to witness the opening of the Suez Canal.

In 1880-81 he took a still longer flight around the world. Waiting till after the Presidential election, that he might cast his vote for his friend General Garfield, the very next day he left with his wife in a special car for San Francisco, where after a few days, they took ship for Japan, from which they passed through the Inland Sea to Shanghai, and from China to Singapore, and up the Bay of Bengal to Calcutta, where he found the same English nobleman whom he had entertained in New York, the Marquis of Ripon, Governor-General of India. Going up the country, the travellers visited Agra and Delhi, where the wonders of architecture showed the magnificence of the old Mogul Empire. The whole journey was one of infinite pleasure and instruction, and they were never weary of talking of the strange manners and customs of the people of Asia.

When they returned to America, General Garfield was President of the United States, who, though a Western man by birth, had been educated in New England, at Williams College in Massachusetts, where he had been graduated twenty-five years before, and which he had a desire to revisit; and it was arranged that he should leave Washington in the morning of July 2d, with as many of his cabinet as could be spared from the seat of government, and come on to New York and all be entertained at "Ardsley," and the next day proceed up the Hudson and across the country to Williamstown; a programme which was interrupted by the terrible news that on arriving at the station in Washington he had been shot, an event that instantly recalled the assassination of Lincoln. At once there rose a cry of horror from one end of the land to the other, and for weeks the whole country was watching by the bedside of the illustrious sufferer.

Of course, the sympathy for the wife and children was universal, but Mr. Field was the first to give this sympathy a practical direction. With his quick eye he saw the condition in which they would be left by the death of the President, as for them the law makes no provision. His salary stops at the very day and hour that he ceases to live, nor is there a pension settled upon his family, nor can anything be paid from the national treasury except by special act of Congress. In this extremity it occurred to Mr. Field that what the Government failed to do should be made up by private generosity; and even before General Garfield's death he started a subscription, heading it with five thousand dollars, and taking it in person to his rich friends. The self imposed task occupied him several months, in which he raised a fund of over three hundred and sixty thousand dollars, which was put into United States four per cent. bonds, yielding an interest of over twelve thousand dollars a year, to be paid quarterly during the life of Mrs. Garfield, and then to go to her children. It was a great satisfaction to have thus provided for those who bore the name of a President of the United States, so that they should be able to live in the comfort and dignity that befitted the family of one who had occupied the most exalted station in the government.

Not content with this, Mr. Field went to Washington, and urged upon his friends in Congress, and finally succeeded in getting passed, a bill giving to the widows of all Presidents a pension of $5,000, which, it added to his gratification to know, would apply to the venerable Mrs. Polk: and that still goes, and will go during her lifetime, to the wife of General Grant, as the slight expression of a nation's gratitude.

Next to the interest he felt in his own country, his heart was in England. While he was an intense American, and perhaps, for that very reason, because he was an American, he claimed kindred with the people from whom we are not only descended, but have received such an inheritance of glory. In his own words: "America, with all her greatness, has come out of the loins of England." When he was in India he was proud of the mighty English race that from its little island governed an empire of two hundred and fifty millions on the other side of the globe. Some might have said that he inherited no small portion of its unconquerable spirit.

And not only did he admire Old England, but he loved Englishmen. He knew all that was said of English reserve and English pride, but long familiarity had taught him that underneath this cold exterior were many of the noblest qualities – courage, heroism and fidelity – so that it had become a part of his creed that an Englishman, when once you have won his confidence, will go farther and fight harder for a friend or for a cause than any other man on the face of the earth. Among such a people Mr. Field was proud to number many of his dearest friends.

A touching proof of their regard for him was given but a few months before his death. On the 2d of December, 1890, he and his wife celebrated their golden wedding. For fifty years they had travelled on the course of life together. Children and grandchildren had been born to them, so that at the close of half a century a large and happy family was gathered round those to whom they looked up with the tenderest affection.

Among the congratulations of that day was a large scroll, signed by Mr. Gladstone, the Duke of Argyll, Lord Monck, and some eighty others whose names are widely known. It was a graceful tribute from England to a son of America, who had done perhaps more than any other living man to bring the two countries and the two peoples together.

That golden wedding was the fit coronation of a life of wonderful activity, and all the kindred who met under that roof were grateful for the past, and full of hopes for the future.

But God's ways are not as our ways. Before many months the clouds began to gather. The next summer, when the family were all at their country home, sickness cast its shadow over their dwelling, which grew more grave till November 23d, when the leaves were falling from the trees before their door, the mother of this large household breathed her last. Two months later the eldest daughter, who was also the eldest child of the family, followed. These repeated blows fell heavy on the affectionate heart of the bereaved husband and father, and when to these were added other sorrows still, it seemed as if the clouds were piled one upon another till they darkened all the horizon. The winter was a gloomy one, from its loneliness and its many causes of sadness. But with the returning spring the grass grew green again, and the trees put forth their leaves, and it seemed as if the new life of nature must put life into the heart of man: and when he removed to the country, and began to drive about as of old among the familiar haunts, the beautiful scenery for a time delighted his eye, and the change of air brought a touch of the old spirit, as if perchance his strength were about to return. But it was only a momentary flush, and he soon took to his room, where, as he looked from his windows, and saw the sun going down over the hills beyond the Hudson, it could only remind him that for him the sun of life was about to set forever. Fair was the world without but desolate was the home within, since she who had made its brightness was gone; and here on the 12th of July 1892, the end came.

It was a beautiful morning, and the windows were open, through which the soft summer air floated into the chamber of death, where his three brothers, all that were left of his father's family, with those of his own household, were round his bed, watching the dear pale face. Thus surrounded and beloved to the last, he ceased to breathe.

Two days later a large company from the country round and from the city gathered at Ardsley, and stood on the lawn and the slopes that lead up to the noble trees that shade the dwelling, as Bishop Potter read the blessed words, "I am the Resurrection and the Life, saith the Lord: he that believeth in Me, though he were dead, yet shall he live."

The next day we bore him away from his home, and from the great city where he had passed his busy life, back to the quiet valley where he was born, and laid him down in the shadow of the encircling hills.³¹ "Bury me there," he had said, "by the side of my beloved wife and by my father and mother." The earth closed over him, and all his struggles and his sorrows were buried in the grave.

The man is gone, but the work remains, a work that multiplies itself, for when once a leader and explorer had opened the way, others were swift to follow, so that now there are no less than ten cables stretched across the Atlantic, and every hour of day or night, "when men wake and when they sleep" (for even in the hours of silence the heart is still beating, only a little more slowly), the pulse of life is kept moving to and fro. The morning news comes after a night's repose, and we are wakened gently to the new day that has dawned upon the world. That which serves to such an end; which is a connecting link between countries and races of men; is not a mere material thing, an iron chain, lying cold and dead in the icy depths of the Atlantic. It is a living, fleshly bond between severed portions of the human family, thrilling with life, along which every human impulse runs swift as the current in human veins, and will run for ever. Free intercourse between nations, as between individuals, leads to mutual kindly offices, that make those who at once give and receive, feel that they are not only neighbors but friends. Hence the "mission" of submarine telegraphy is to be the minister of peace. The first message across the deep was "Glory to God in the highest; peace on earth, good will to men," and the first news it brought was that of peace in China. And when again the sea had found a tongue, its first glad intelligence was that the great war between Austria and Prussia was ended. Thus at its very birth was this new messenger baptized in the name of Peace, and consecrated to a service worthy of its name.

 
"Man marks the earth with ruin: his control
Stops with the shore: upon the watery plain
The wrecks are all thy deed."
 

Not all! The wrath of man adds to the fury of the elements. To strew the sea with wrecks is the work of lightning and tempest: man's nobler office is to restore what nature may destroy.

It was the chief desire of him who has gone to the grave, that the link which unites England and America might bind the countries that he loved the most in indissoluble union. Though the two nations dwell apart, on opposite shores of the same great and wide sea, they are now brought almost within the sound of each other's voice and the touch of each other's hand: they can look into each other's eyes, and exchange their morning and evening congratulations with the rising and setting of each day's sun. May the instrument through which they look and speak never startle them with rude alarms, but continue to whisper peace in tones as gentle as the murmur of the sea, as long as the winds blow and the waters roll.

APPENDIX.
INSTRUMENTS FOR SIGNALLING ACROSS THE ATLANTIC OCEAN

If the project of an Atlantic Telegraph be justly ascribed to the daring of an American, and its success to his courage and perseverance through years of struggle and disappointment; the solution of the scientific problem involved in it, is due to the genius of a Scotchman, whom the writer of this volume first knew (and it is a pleasant memory to have known such a man in the beginning of his splendid career) as Professor Thomson of the University of Glasgow, where his father had been professor before him, whom the son succeeded in the Department of Physics, which included the then little known science of Electricity, to which the young professor devoted himself with all the eagerness of scientific genius. The project of a telegraph across the ocean suggested new problems and new difficulties, to which he applied himself with characteristic ardor, the result of which is here given. When the second expedition of the Great Eastern (in 1866) was successful, the British Government at once recognized his eminent services; and the name of Sir William Thomson has since been recognized, among the leaders in scientific discovery, not only in England but all over the scientific world. The government has recently added a further dignity in making him a peer of the realm, an honor hitherto reserved generally for the leaders of armies, like Wellington. To confer it on a simple professor shows an advance of civilization in the respect paid to intellectual greatness. In conferring such a title, the government does not honor the man more than it honors itself. It is to the glory of England that such an honor should be paid to science in the person of Lord Kelvin, as was paid to literature in the person of Lord Tennyson.

The following, taken in substance from an English scientific review, will indicate briefly, but with sufficient clearness, the problem to be solved in signalling to great distances under the sea, and the instruments by which this is accomplished: —

The speed of signalling through a submarine cable depends upon its electrostatic capacity, which, unless it be very small, gives rise to "retardation."

In the Proceedings of the Royal Society for 1855, Sir William Thomson showed how the effect at the distant end of a cable, caused by the application of a battery at one end, could be calculated and represented graphically in what is called the "curve of arrival." After contact is first made at the sending end between the cable and one pole of the battery (the other pole being to earth), a certain interval of time elapses before any effect is felt at the distant end. This interval of time is denoted by the letter a. After the interval of time a has passed, a current begins to issue from the cable at the receiving end, and increases in strength very rapidly. After a further interval of 4a or after a period of 5a from the first application of the battery, it attains about half its maximum strength, and there is very little sensible increase in strength after a time equal to 10a has elapsed. The curve of arrival is drawn by taking distances along o x to represent intervals of time, and distances along o y to represent strengths of current. Curve No. I. shows the gradual increase in strength of the received current at one end of a cable when the battery is applied to and kept in contact with the other end. For a distance corresponding to the interval of time a, the curve does not sensibly deviate from the straight line o x; in other words, no effect is observable at the receiving end during this time.

If now, instead of being continuously applied to the battery at the sending end, the cable had been applied to it during a short interval of time, and then disconnected from the battery and connected to earth, the curve of arrival would be of the form shown by curve No. II. Curve No. II. shows the effect of applying the battery during a length of time equal to 4a, and then putting the cable to earth. It will be seen that a current gradually diminishing in strength continues to flow out of the cable at the distant end for a considerable time after the battery has been disconnected. This continued discharge is what gives rise to the difficulty experienced in reading the signals sent through long cables.

The instrument first used for receiving signals through a long submarine cable (the short-lived 1858 Atlantic cable) was the Mirror Galvanometer, which consisted of a small mirror with four light magnets attached to its back (weighing, in all, less than half-a-grain), suspended by means of a single silk fibre, in a proper position within the hollow of a bobbin of fine wire: a suitable controlling magnet being placed adjacent to the apparatus. The action of this instrument is as follows. On the passage of a current of electricity through the fine wire coil, the suspended magnets with the mirror attached, tend to take up a position at right angles to the plane of the coil, and are deflected to one side or the other according as the current is in one direction or the other.

Of various other forms of receiving instruments devised by Sir William Thomson, the next to be noticed is the Spark Recorder, both on account of the principles involved in its construction, and because it in some respects foreshadowed the more perfect instrument, the Siphon Recorder, which he introduced some years later. The action of the Spark Recorder was as follows. An indicator, suitably supported, was caused to take a to-and-fro motion, by means of the electro-magnetic action due to the electric currents constituting the signals. This indicator was connected to a Ruhmkorff coil or other equivalent apparatus, designed to cause a continual succession of sparks to pass between the indicator, and a metal plate situated beneath it and having a plane surface parallel to its line of motion. Over the surface of this plate and between it and the indicator, there was passed, at a regularly uniform speed in a direction perpendicular to the line of motion of the indicator, a material capable of being acted on physically by the sparks, either through their chemical action, their heat, or their perforating force. The record of the signals given by this instrument was an undulating line of fine perforations or spots, and the character and succession of the undulations were used to interpret the signals desired to be sent.

The latest form of receiving instrument for long submarine cables, is that of the Siphon Recorder, for which Sir William Thomson obtained his first patent in 1867. Within the three succeeding years he effected great improvements on it, and the instrument has, since that date, been exclusively employed in working most of the more important submarine cables of the world – indeed all except those on which the Mirror-Galvanometer method is still in use.

In the Siphon Recorder (a view of which is shown in), the indicator consists of a light rectangular signal-coil of fine wire, suspended between the poles of a powerful electro-magnet, so as to be free to move about its longer axis which is vertical, and so joined up that the electric currents constituting the signals through the cable, pass through it. A fine glass siphon-tube is suitably suspended, so as to have only one degree of freedom to move, and is connected to the signal-coil so as to move with it. The short leg of the siphon-tube dips into an insulated ink-bottle, which permits of the ink contained by it being electrified, while the long leg is situated so that its open end is at a very small distance from a brass table, placed with its surface parallel to the plane in which the mouth of this leg moves, and over which a slip of paper may be passed at a uniform rate as in the Spark Recorder. The effect of electrifying the ink is to cause it to be projected in very minute drops from the open end of the siphon-tube, towards the brass table or on the paper-slip passing over it. Thus when the signal-coil moves in obedience to the electric signal currents passed through it, the motion then communicated to the siphon, is recorded on the moving slip of paper by a wavy line of ink marks very close together. The interpretation of the signals is according to the Morse code; the dot and dash being represented by deflections of the line to one side or the other of the centre line of the paper.

Perfect as this instrument seemed, yet after further years of study and experiment, Sir William Thomson was able, at the close of 1883, to present to the world the Siphon Recorder, greatly improved, because in a very much simpler form. In this form of the instrument, instead of the electro-magnets, he used two bundles of long bar-magnets of square section and made up of square bars of glass-hard steel. The two bundles are supported vertically on a cast-iron socket, and on the upper end of each is fitted a soft iron shoe, so shaped as to concentrate the lines of force and thus produce a strong magnetic field in the space within which the signal-coil is suspended. He made instruments of this kind to work both with and without electrification of the ink. Without electrification the instrument, as shown in, is exceedingly simple and compact, and in this form is capable of doing good work on cables of lengths up to 500 or 600 miles. When constructed for electrification of the ink, as shown in, it is of course available for much longer lengths of cable, but for cables such as the Atlantic cables, the original form of the Siphon Recorder is that still chiefly used. The strongest magnetic field hitherto obtained by permanent magnets (of glass-hard steel) is about 3000 c. g. s. With the electro-magnets of the original form of Siphon Recorder as in ordinary use a magnetic field of about or over 5000 c. g. s. is easily attained. In is shown a fac simile of part of a message received and recorded by a Siphon Recorder, such as is shown in, from one of the Eastern Telegraph Co.'s Cables of about 830 miles length.